Sample records for teach non-science majors

  1. Using Environmental Science as a Motivational Tool to Teach Physics to Non-Science Majors

    ERIC Educational Resources Information Center

    Busch, Hauke C.

    2010-01-01

    A traditional physical science course was transformed into an environmental physical science course to teach physics to non-science majors. The objective of the new course was to improve the learning of basic physics principles by applying them to current issues of interest. A new curriculum was developed with new labs, homework assignments,…

  2. A Module-Based Environmental Science Course for Teaching Ecology to Non-Majors

    ERIC Educational Resources Information Center

    Smith, Geoffrey R.

    2010-01-01

    Using module-based courses has been suggested to improve undergraduate science courses. A course based around a series of modules focused on major environmental issues might be an effective way to teach non-science majors about ecology and ecology's role in helping to solve environmental problems. I have used such a module-based environmental…

  3. Teaching Practical Watershed Science to non-Watershed Science Majors

    NASA Astrophysics Data System (ADS)

    Fassnacht, S. R.; Laituri, M.; Layden, P.; Coleman, R.

    2008-12-01

    The Warner College of Natural Resources (WCNR) at Colorado State University (CSU) has had a long tradition of integrating field measurements into the classroom, dating back to the first forestry summer camp held in 1917 at the CSU Pingree Park mountain campus. In the early 1960s, the Cooperative Watershed Management Unit coordinated efforts to understand and analyse the basic resources of the area, with an emphasis on the geology, hydrology, and climate. Much of this understand is now used as the Abiotic (Geology and Watershed) component of a five-credit, four-week course offered twice each summer at Pingree Park. With the exception of Geology students who have their own field course, this Natural Resources Ecology and Measurements course (NR 220) is required for all WCNR undergraduate students. These majors include Watershed Science, Forestry, Rangeland Ecology, Fisheries, Wildlife Biology, Conservation Biology, and Recreation and Tourism. Since most of these are students are much better trained in biological and/or social sciences rather than physical sciences, a challenge for the Watershed professor is to teaching practical Watershed Science to non-Watershed Science majors. This presentation describes how this challenge is met and how this course helps broaden the knowledge base of Natural Resources students.

  4. An Inquiry-Based Approach to Teaching Space Weather to Undergraduate Non-Science Majors

    NASA Astrophysics Data System (ADS)

    Cade, W. B., III

    2016-12-01

    Undergraduate Space Weather education is an important component of creating a society that is knowledgeable about space weather and its societal impacts. The space physics community has made great strides in providing academic education for students, typically physics and engineering majors, who are interested in pursuing a career in the space sciences or space weather. What is rarely addressed, however, is providing a broader space weather education to undergraduate students as a whole. To help address this gap, I have created an introductory space weather course for non-science majors, with the idea of expanding exposure to space weather beyond the typical physics and engineering students. The philosophy and methodologies used in this course will be presented, as well as the results of the first attempts to teach it. Using an approach more tailored to the non-scientist, courses such as this can be an effective means of broadening space weather education and outreach.

  5. Using the Humanities to Teach Neuroscience to Non-majors

    PubMed Central

    McFarlane, Hewlet G.; Richeimer, Joel

    2015-01-01

    We developed and offered a sequence of neuroscience courses geared toward changing the way non-science students interact with the sciences. Although we accepted students from all majors and at all class levels, our target population was first and second year students who were majoring in the fine arts or the humanities, or who had not yet declared a major. Our goal was to engage these students in science in general and neuroscience in particular by teaching science in a way that was accessible and relevant to their intellectual experiences. Our methodology was to teach scientific principles through the humanities by using course material that is at the intersection of the sciences and the humanities and by changing the classroom experience for both faculty and students. Examples of our course materials included the works of Oliver Sacks, V.S. Ramachandran, Martha Nussbaum, Virginia Woolf and Karl Popper, among others. To change the classroom experience we used a model of team-teaching, which required the simultaneous presence of two faculty members in the classroom for all classes. We changed the structure of the classroom experience from the traditional authority model to a model in which inquiry, debate, and intellectual responsibility were central. We wanted the students to have an appreciation of science not only as an endeavor guided by evidence and experimentation, but also a public discourse driven by creativity and controversy. The courses attracted a significant number of humanities and fine arts students, many of whom had already completed their basic science requirement. PMID:26240533

  6. Using the Humanities to Teach Neuroscience to Non-majors.

    PubMed

    McFarlane, Hewlet G; Richeimer, Joel

    2015-01-01

    We developed and offered a sequence of neuroscience courses geared toward changing the way non-science students interact with the sciences. Although we accepted students from all majors and at all class levels, our target population was first and second year students who were majoring in the fine arts or the humanities, or who had not yet declared a major. Our goal was to engage these students in science in general and neuroscience in particular by teaching science in a way that was accessible and relevant to their intellectual experiences. Our methodology was to teach scientific principles through the humanities by using course material that is at the intersection of the sciences and the humanities and by changing the classroom experience for both faculty and students. Examples of our course materials included the works of Oliver Sacks, V.S. Ramachandran, Martha Nussbaum, Virginia Woolf and Karl Popper, among others. To change the classroom experience we used a model of team-teaching, which required the simultaneous presence of two faculty members in the classroom for all classes. We changed the structure of the classroom experience from the traditional authority model to a model in which inquiry, debate, and intellectual responsibility were central. We wanted the students to have an appreciation of science not only as an endeavor guided by evidence and experimentation, but also a public discourse driven by creativity and controversy. The courses attracted a significant number of humanities and fine arts students, many of whom had already completed their basic science requirement.

  7. Teaching Science Fiction to Science and Technology Majors.

    ERIC Educational Resources Information Center

    Diaconoff, Ted

    This paper describes the content and implementation of a course designed to teach science and technology majors about science fiction. Although many students had expressed little interest in the imaginative world of literature, the scientific content of the texts used attracted their attention and legitimized their involvement in something outside…

  8. Elementary Teachers' Perceptions of Their Professional Teaching Competencies: Differences between Teachers of Math/Science Majors and Non-Math/Science Majors in Taiwan

    ERIC Educational Resources Information Center

    Wu, Li-Chen; Chao, Li-ling; Cheng, Pi-Yun; Tuan, Hsiao-Lin; Guo, Chorng-Jee

    2018-01-01

    The purpose of this study was to probe the differences of perceived professional teaching competence between elementary school math/science teachers in Taiwan who are majored in math/science and those who are not. A researcher-developed Math/Science Teachers' Professional Development Questionnaire was used in a nationwide survey, using a two-stage…

  9. My Science Is Better than Your Science: Conceptual Change as a Goal in Teaching Science Majors Interested in Teaching Careers about Education

    ERIC Educational Resources Information Center

    Utter, Brian C.; Paulson, Scott A.; Almarode, John T.; Daniel, David B.

    2018-01-01

    We argue, based on a multi-year collaboration to develop a pedagogy course for physics majors by experts in physics, education, and the science of learning, that the process of teaching science majors about education and the science of learning, and evidence-based teaching methods in particular, requires conceptual change analogous to that…

  10. Recruiting Science Majors into Secondary Science Teaching: Paid Internships in Informal Science Settings

    ERIC Educational Resources Information Center

    Worsham, Heather M.; Friedrichsen, Patricia; Soucie, Marilyn; Barnett, Ellen; Akiba, Motoko

    2014-01-01

    Despite the importance of recruiting highly qualified individuals into the science teaching profession, little is known about the effectiveness of particular recruitment strategies. Over 3 years, 34 college science majors and undecided students were recruited into paid internships in informal science settings to consider secondary science teaching…

  11. Beliefs and Attitudes about Science and Mathematics in Pre-Service Elementary Teachers, STEM, and Non-STEM Majors in Undergraduate Physics Courses

    NASA Astrophysics Data System (ADS)

    Michaluk, Lynnette; Stoiko, Rachel; Stewart, Gay; Stewart, John

    2018-04-01

    Elementary teachers often hold inaccurate beliefs about the Nature of Science (NoS) and have negative attitudes toward science and mathematics. Using a pre-post design, the current study examined beliefs about the NoS, attitudes toward science and mathematics, and beliefs about the teaching of mathematics and science in a large sample study ( N = 343) of pre-service teachers receiving a curriculum-wide intervention to improve these factors in comparison with Science, Technology, Engineering, and Mathematics (STEM) and non-STEM majors in other physics courses ( N = 6697) who did not receive the intervention, over a 10-year period. Pre-service teachers evidenced initially more negative attitudes about mathematics and science than STEM majors and slightly more positive attitudes than non-STEM majors. Their attitudes toward mathematics and science and beliefs about the NoS were more similar to non-STEM than STEM majors. Pre-service teachers initially evidenced more positive beliefs about the teaching of mathematics and science, and their beliefs even increased slightly over the course of the semester, while these beliefs in other groups remained the same. Beliefs about the NoS and the teaching of mathematics and science were significantly negatively correlated for STEM and non-STEM majors, but were not significantly correlated for pre-service teachers. Beliefs about the NoS and attitudes toward mathematics and science were significantly positively correlated for both pre-service teachers and STEM students pursing the most mathematically demanding STEM majors. Attitudes toward science and mathematics were significantly positively correlated with accurate beliefs about the teaching of mathematics and science for all student groups.

  12. Teaching Music to the Non-Major: A Review of the Literature

    ERIC Educational Resources Information Center

    Enz, Nicholas J.

    2013-01-01

    Students pursuing college degrees in fields other than music must often take a music or arts course. Teaching these non-majors has been a traditional responsibility of college and university music departments. While experts agree that a single, widely accepted approach to teaching the non-major is unavailable, many experts concur that developing…

  13. Evaluation of a Metric Booklet as a Supplement to Teaching the Metric System to Undergraduate Non-Science Majors.

    ERIC Educational Resources Information Center

    Exum, Kenith Gene

    Examined is the effectiveness of a method of teaching the metric system using the booklet, Metric Supplement to Mathematics, in combination with a physical science textbook. The participants in the study were randomly selected undergraduates in a non-science oriented program of study. Instruments used included the Metric Supplement to Mathematics…

  14. CDM: Teaching Discrete Mathematics to Computer Science Majors

    ERIC Educational Resources Information Center

    Sutner, Klaus

    2005-01-01

    CDM, for computational discrete mathematics, is a course that attempts to teach a number of topics in discrete mathematics to computer science majors. The course abandons the classical definition-theorem-proof model, and instead relies heavily on computation as a source of motivation and also for experimentation and illustration. The emphasis on…

  15. Analysing Science Teaching for Non-Academic Students in Secondary School.

    ERIC Educational Resources Information Center

    McCarthy, Margaret E.

    This is a qualitative study of science teaching for non-academic students in secondary school. Evidence from earlier studies suggested that few variations in teaching strategies are being used for non-academic students. This investigator categorizes certain pertinent teaching features which, if emphasized, have the potential to enhance the…

  16. A comparative study of traditional lecture methods and interactive lecture methods in introductory geology courses for non-science majors at the college level

    NASA Astrophysics Data System (ADS)

    Hundley, Stacey A.

    In recent years there has been a national call for reform in undergraduate science education. The goal of this reform movement in science education is to develop ways to improve undergraduate student learning with an emphasis on developing more effective teaching practices. Introductory science courses at the college level are generally taught using a traditional lecture format. Recent studies have shown incorporating active learning strategies within the traditional lecture classroom has positive effects on student outcomes. This study focuses on incorporating interactive teaching methods into the traditional lecture classroom to enhance student learning for non-science majors enrolled in introductory geology courses at a private university. Students' experience and instructional preferences regarding introductory geology courses were identified from survey data analysis. The information gained from responses to the questionnaire was utilized to develop an interactive lecture introductory geology course for non-science majors. Student outcomes were examined in introductory geology courses based on two teaching methods: interactive lecture and traditional lecture. There were no significant statistical differences between the groups based on the student outcomes and teaching methods. Incorporating interactive lecture methods did not statistically improve student outcomes when compared to traditional lecture teaching methods. However, the responses to the survey revealed students have a preference for introductory geology courses taught with lecture and instructor-led discussions and students prefer to work independently or in small groups. The results of this study are useful to individuals who teach introductory geology courses and individuals who teach introductory science courses for non-science majors at the college level.

  17. Impact of SCALE-UP on science teaching self-efficacy of students in general education science courses

    NASA Astrophysics Data System (ADS)

    Cassani, Mary Kay Kuhr

    The objective of this study was to evaluate the effect of two pedagogical models used in general education science on non-majors' science teaching self-efficacy. Science teaching self-efficacy can be influenced by inquiry and cooperative learning, through cognitive mechanisms described by Bandura (1997). The Student Centered Activities for Large Enrollment Undergraduate Programs (SCALE-UP) model of inquiry and cooperative learning incorporates cooperative learning and inquiry-guided learning in large enrollment combined lecture-laboratory classes (Oliver-Hoyo & Beichner, 2004). SCALE-UP was adopted by a small but rapidly growing public university in the southeastern United States in three undergraduate, general education science courses for non-science majors in the Fall 2006 and Spring 2007 semesters. Students in these courses were compared with students in three other general education science courses for non-science majors taught with the standard teaching model at the host university. The standard model combines lecture and laboratory in the same course, with smaller enrollments and utilizes cooperative learning. Science teaching self-efficacy was measured using the Science Teaching Efficacy Belief Instrument - B (STEBI-B; Bleicher, 2004). A science teaching self-efficacy score was computed from the Personal Science Teaching Efficacy (PTSE) factor of the instrument. Using non-parametric statistics, no significant difference was found between teaching models, between genders, within models, among instructors, or among courses. The number of previous science courses was significantly correlated with PTSE score. Student responses to open-ended questions indicated that students felt the larger enrollment in the SCALE-UP room reduced individual teacher attention but that the large round SCALE-UP tables promoted group interaction. Students responded positively to cooperative and hands-on activities, and would encourage inclusion of more such activities in all of the

  18. Teaching Emergence and Collective Behavior in Physics and Biology to Non-majors

    NASA Astrophysics Data System (ADS)

    Manhart, Michael

    2014-03-01

    Emergence and collective behavior form one of the most fertile intersections of physics and biology in current research. Unfortunately, modern and interdisciplinary concepts such as these are often neglected in physics courses for non-majors. A team of four graduate students and a faculty advisor recently redesigned our department's course for non-majors (Concepts of Physics for Humanities and Social Science Students) to focus on emergence and collective behavior along with three other major themes in modern physics. In the course we developed basic concepts of statistical physics and thermodynamics to understand a variety of emergent phenomena in physics and biology, including bird flocking, superconductivity, and protein folding. We discussed the notion of life itself as an inherently emergent phenomenon arising from the collective behavior of molecules. The students also wrote their own blog posts on emergent phenomena and interactively explored emergence through workshops on Foldit (the protein folding game) and Conway's Game of Life. We believe our course demonstrates some possibilities and challenges for teaching non-majors at the intersection of physics and biology. I gratefully acknowledge my collaboration with Aatish Bhatia, Deepak Iyer, Simon Knapen, and Saurabh Jha.

  19. The Science Teaching Self-Efficacy of Prospective Elementary Education Majors Enrolled in Introductory Geology Lab Sections

    ERIC Educational Resources Information Center

    Baldwin, Kathryn A.

    2014-01-01

    This study examined prospective elementary education majors' science teaching self-efficacy while they were enrolled in an introductory geology lab course for elementary education majors. The Science Teaching Efficacy Belief Instrument Form B (STEBI-B) was administered during the first and last lab class sessions. Additionally, students were…

  20. Science of Food and Cooking: A Non-Science Majors Course

    ERIC Educational Resources Information Center

    Miles, Deon T.; Bachman, Jennifer K.

    2009-01-01

    Recent emphasis on the science of food and cooking has been observed in our popular literature and media. As a result of this, a new non-science majors course, The Science of Food and Cooking, is being taught at our institution. We cover basic scientific concepts, which would normally be discussed in a typical introductory chemistry course, in the…

  1. A Physics Professor and a Science Librarian Challenge Non-Majors to Evaluate Science

    ERIC Educational Resources Information Center

    Iber, Mary; Sherman, Derin

    2009-01-01

    Required science courses can have limited interest from some students. In this article, a physics professor and a science librarian describe methods used to engage non majors in learning about science in a non-threatening way. By evaluating the science on selected web sites, and classifying the sites according to six categories (valid,…

  2. Comparison of attitudes of non-science major students toward science and technology

    NASA Astrophysics Data System (ADS)

    Wick, Donald Gary

    This study examines the attitudes of non-science major students who were enrolled in General Education Required (GER) science courses at three diverse Iowa post-secondary educational institutions: The University of Iowa, Cornell College, and Kirkwood Community College. The information was gathered using a survey instrument with the test subjects responding with a five-part Likert-scale to a series of statements regarding: (1) reasons for taking the science course, (2) views and attitudes toward science, and (3) the nature and implications of science and technology. The initial data gathered was analyzed using either chi-squared, analysis of variance (ANOVA), and/or Bonferroni tests. Responses to grouped statements were used to generate population indices related to: (1) experience, (2) attitude, (3) experimentation, and (4) technology. These indices were analyzed for statistically significant differences using Tukey's Studentized (HSD) and Tukey-Krammer tests. Statistically significant differences were found in the response means for some individual statements. When a population index was calculated for each school using the grouped responses related to attitude, experience, science/technology, multiple comparison testing determined significant differences with regards to attitude, experiences, and science/technology. No significant differences were found between the schools for the population index regarding experimentation. Demographic information gathered concerning the nature of the student populations included: (1) declared major, (2) classification, (3) previous number of science courses, (4) gender, and (5) use of computers for the science course. Analysis of demographic data also revealed statistically significant differences. The differences found in this study provide additional quantitative data to characterize the non-science major student. Recommendations based on this data are: (1) The University of Iowa strive for smaller GER class sizes and

  3. Using a dynamic, introductory-level volcanoes class as a means to introduce non-science majors to the geosciences

    NASA Astrophysics Data System (ADS)

    Cook, G. W.

    2012-12-01

    At the University of California, San Diego, I teach a quarter-long, introductory Earth Science class titled "Volcanoes," which is, in essence, a functional class in volcanology designed specifically for non-majors. This large-format (enrollment ~ 85), lecture-based class provides students from an assortment of backgrounds an opportunity to acquire much-needed (and sometimes dreaded) area credits in science, while also serving as an introduction to the Earth Science major at UCSD (offered through Scripps Institution of Oceanography). The overall goal of the course is to provide students with a stimulating and exciting general science option that, using an inherently interesting topic, introduces them to the fundamentals of geoscience. A secondary goal is to promote general science and geoscience literacy among the general population of UCSD. Student evaluations of this course unequivocally indicate a high degree of learning and interest in the material. The majority of students in the class (>80%) are non-science majors and very few students (<3%) are Earth science degree-seeking students. In addition, only a handful of students have typically had any form of geology class beyond high school level Earth Science. Consequently, there are challenges associated with teaching the class. Perhaps most significantly, students have very little background—background that is necessary for understanding the processes involved in volcanic eruptions. Second, many non-science students have built-in anxieties with respect to math and science, anxieties that must be considered when designing curriculum and syllabi. It is essential to provide the right balance of technical information while remaining in touch with the audience. My approach to the class involves a dynamic lecture format that incorporates a wide array of multimedia, analogue demonstrations of volcanic processes, and small-group discussions of topics and concepts. In addition to teaching about volcanoes

  4. Discovery of the Collaborative Nature of Science with Undergraduate Science Majors and Non-Science Majors through the Identification of Microorganisms Enriched in Winogradsky Columns.

    PubMed

    Ramirez, Jasmine; Pinedo, Catalina Arango; Forster, Brian M

    2015-12-01

    Today's science classrooms are addressing the need for non-scientists to become scientifically literate. A key aspect includes the recognition of science as a process for discovery. This process relies upon interdisciplinary collaboration. We designed a semester-long collaborative exercise that allows science majors taking a general microbiology course and non-science majors taking an introductory environmental science course to experience collaboration in science by combining their differing skill sets to identify microorganisms enriched in Winogradsky columns. These columns are self-sufficient ecosystems that allow researchers to study bacterial populations under specified environmental conditions. Non-science majors identified phototrophic bacteria enriched in the column by analyzing the signature chlorophyll absorption spectra whereas science majors used 16S rRNA gene sequencing to identify the general bacterial diversity. Students then compiled their results and worked together to generate lab reports with their final conclusions identifying the microorganisms present in their column. Surveys and lab reports were utilized to evaluate the learning objectives of this activity. In pre-surveys, nonmajors' and majors' answers diverged considerably, with majors providing responses that were more accurate and more in line with the working definition of collaboration. In post-surveys, the answers between majors and nonmajors converged, with both groups providing accurate responses. Lab reports showed that students were able to successfully identify bacteria present in the columns. These results demonstrate that laboratory exercises designed to group students across disciplinary lines can be an important tool in promoting science education across disciplines.

  5. Introducing Stereochemistry to Non-science Majors

    NASA Astrophysics Data System (ADS)

    Luján-Upton, Hannia

    2001-04-01

    Stereochemistry is often a difficult topic for both science and non-science majors to learn. The topics covered in most undergraduate textbooks, although fundamental, seem very abstract to most students. This manuscript describes two simple exercises that can be used to introduce concepts associated with stereochemistry such as "sameness", superimposability, chirality, enantiomers, optical activity, polarimetry, and racemic mixtures. One exercise compares chirality in hands with the achiral nature of two textbooks. The other exercise involves a murder mystery, the solution of which hinges upon understanding the concept of optical activity, specifically in natural products such as toxins from poisonous mushrooms.

  6. Effects of the Use of Two Visual Methods in Teaching College Chemistry to Non-Science Majors.

    ERIC Educational Resources Information Center

    Koechel, Loretta

    This was a quantified study on the learning of certain theoretical topics in general chemistry as influenced by two methods of visual technique (single concept films, overhead projections). Four classes of chemistry students (non-science majors) registered in sections on a random basis, participated. Objective, multiple choice tests on each of the…

  7. Laboratory activity to effectively teach introductory geomicrobiology concepts to non-geology majors.

    PubMed

    Marvasi, Massimiliano; Davila-Vazquez, Yarely C; Martinez, Lilliam Casillas

    2013-01-01

    We have designed a three-week experiment that can complement any microbiology course, to teach main geomicrobiology concepts for non-geology majors. One of the most difficult concepts for non-geology majors to comprehend is how bacteria serve as a platform for different mineralization reactions. In our three-week laboratory practice, students learn the main principles and conditions required for an induced bacterial mineralization. Upon completion of the laboratory experience, students will: 1) learn how microbial-induced mineralization (such as calcium carbonate formation) is affected by differential media and growth conditions; 2) understand how bacterial physiology affects any induced in situ or in vitro mineralization; 3) comprehend how growing conditions and bacterial physiologies interrelate, resulting in differential crystal formation. The teaching-learning process was assessed using a pre-/posttest with an increase from 26% to 76% in the number of positive answers from the students. We also measured the students' proficiency while conducting specific technical tasks, revealing no major difficulties while conducting the experiments. A final questionnaire was provided with satisfactory evaluations from the students regarding the organization and content of the practices. 84-86% of the students agreed that the exercises improved their knowledge in geomicrobiology and would like to attend similar laboratories in the future. Such response is the best indicator that the laboratory practice can be implemented in any undergraduate/graduate microbiology course to effectively teach basic geomicrobiology concepts to non-geology majors.

  8. Engaging non-Majors: Teaching From the Eye of Hurricane Katrina and the Pacific Ocean

    NASA Astrophysics Data System (ADS)

    Sarmiento, S. E.

    2007-12-01

    Engaging non-majors to become interested in the geosciences college courses they take for a science requirement represents a challenge. These courses are most likely the only exposure they will ever have to a formal earth science curriculum. Experience shows a general lack of motivation and the need to find effective teaching methods to raise their interest. In the beginning of the fall 2005 semester, I participated in a research project to measure water vapor contents on the ground of the eye of hurricane Katrina in Slidell, Louisiana. Sharing this experience with my physical and environmental geology students made a significant difference (25 percentage final grade improvement) on their interest and course performance over previous semesters. Class presentations with data collected in Katrina contributed to build a general trust in the instructor and in the way, students viewed the role of geosciences in the mitigation of natural hazardous processes. The use of travel blogs and internet enhanced courses allows teaching real time from almost anywhere as it was recently done from the east pacific (360 miles NW from Guam). An interactive portfolio of the faculty field experiences presented at the beginning of the semester has the potential to build student interest and their trust on the faculty experience and passion for the subject.

  9. Using the Theme of Mass Extinctions to Teach Science to Non-Science Major College and University Students

    NASA Astrophysics Data System (ADS)

    Boness, D. A.

    2013-12-01

    The general public is heavily exposed to "news" and commentary---and arts and entertainment---that either inadvertently misrepresents science or even acts to undermine it. Climate change denial and evolution denial is well funded and pervasive. Even university-educated people get little exposure to the aims, methods, debates, and results of scientific inquiry because unless they earn degrees in science they typically only take one or two introductory science courses at the university level. This presentation reports the development of a new, non-science major Seattle University course on mass extinctions throughout earth history. Seattle University is an urban, Jesuit Catholic university. The topic of mass extinctions was chosen for several reasons: (1) To expose the students to a part of current science that has rich historical roots yet by necessity uses methods and reasoning from geology, geophysics, oceanography, physics, chemistry, biology, and astronomy. This multidisciplinary course provides some coverage of sciences that the student would not typically ever see beyond secondary school. (2) To enable the students to learn enough to follow some of the recent and current debates within science (e.g., mass extinctions by asteroid impact versus massive volcanism, ocean anoxia, and ocean acidification), with the students reading some of the actual literature, such as articles in Science, Nature, or Nature Geoscience. (3) To emphasize the importance of "deep time" as evolutionary biological processes interact with massive environmental change over time scales from hundreds of millions of years down to the seconds and hours of an asteroid or comet strike. (4) To show the effects of climate change in the past, present, and future, due to both natural and anthropogenic causes. (5) To help the student critically evaluate the extent to which their future involves a human-caused mass extinction.

  10. Where Non-Science Majors Get Information about Science and How They Rate that Information

    NASA Astrophysics Data System (ADS)

    Buxner, Sanlyn; Impey, Chris; Nieberding, Megan; Romine, James

    2014-11-01

    College non-science major courses represent one of the last science courses many students will ever take. We report on a study of 400 undergraduate non-majors students enrolled in introductory astronomy courses at the University of Arizona to gain insight into where they get their information about science and their perception of that information. Students completed an online survey during the 2013-2014 school year. In addition to demographic information, students reported where they obtained information about science when they want to know something both for their own knowledge as well as information for a course assignment. They reported their interest in different science topics, rated the reliability of different sources of information, and reported how important science was to their life, including their future career choice.Overall, students reported getting information from a variety of online sources when looking up a topic for their own knowledge, including internet searches (71%), Wikipedia (46%), and online science sites (e.g. NASA) (45%). When asked where they got information for course assignments, most reported from assigned readings (82%) but a large percentage still reported getting information from online sources such as internet searches (60%), Wikipedia (30%) and online science sites (e.g. NASA) (20%). Overall, students rated professors/teachers and textbooks at the most reliable sources of scientific information and rated social media sites, blogs and Wikipedia as the least reliable sources of scientific information. Additionally, friends and family members were rated as less reliable sources of scientific information than similar information found on multiple websites. Students’ interest in science and self-reported knowledge in science was positively correlated. There was a significant positive correlation between those who reported that they liked science and felt that science was important to their future career. Overall, our results are

  11. Teachers' perceptions on primary science teaching

    NASA Astrophysics Data System (ADS)

    Kijkuakul, Sirinapa

    2018-01-01

    This qualitative research aimed to review what primary teachers think about how to teach science in rural school contexts. Three primary schools in Thailand were purposively chosen for this study. Eleven primary science teachers of these schools were the research participants. Questionnaires, interviews, and observations were implemented to reveal the primary school teachers' educational backgrounds, science teaching context, and need for self-driven professional development. Content and discourse analysis indicated that the non-science educational background and the science teaching context implied a need for self-driven professional development. The non-science educational background teachers were generally unfamiliar with the current national science curriculum, and that they would not be comfortable when the researcher observed their science teaching practice. They also believed that experimentation was the only one strategy for teaching science, and that the priority for their teaching support was teaching media rather than their understanding of scientific concepts or teaching strategies. As implication of this research, subsequent developments on science teacher profession in rural context, therefore, need to promote teachers' understandings of nature of science and technological and pedagogical content knowledge. In addition, they should be challenged to practice on critically participatory action research for academic growth and professional learning community.

  12. Laboratory Activity to Effectively Teach Introductory Geomicrobiology Concepts to Non-Geology Majors

    PubMed Central

    Marvasi, Massimiliano; Davila-Vazquez, Yarely C.; Martinez, Lilliam Casillas

    2013-01-01

    We have designed a three-week experiment that can complement any microbiology course, to teach main geomicrobiology concepts for non-geology majors. One of the most difficult concepts for non-geology majors to comprehend is how bacteria serve as a platform for different mineralization reactions. In our three-week laboratory practice, students learn the main principles and conditions required for an induced bacterial mineralization. Upon completion of the laboratory experience, students will: 1) learn how microbial-induced mineralization (such as calcium carbonate formation) is affected by differential media and growth conditions; 2) understand how bacterial physiology affects any induced in situ or in vitro mineralization; 3) comprehend how growing conditions and bacterial physiologies interrelate, resulting in differential crystal formation. The teaching-learning process was assessed using a pre-/posttest with an increase from 26% to 76% in the number of positive answers from the students. We also measured the students’ proficiency while conducting specific technical tasks, revealing no major difficulties while conducting the experiments. A final questionnaire was provided with satisfactory evaluations from the students regarding the organization and content of the practices. 84–86% of the students agreed that the exercises improved their knowledge in geomicrobiology and would like to attend similar laboratories in the future. Such response is the best indicator that the laboratory practice can be implemented in any undergraduate/graduate microbiology course to effectively teach basic geomicrobiology concepts to non-geology majors. PMID:24358384

  13. Clarity in Teaching and Active Learning in Undergraduate Microbiology Course for Non-Majors

    ERIC Educational Resources Information Center

    Marbach-Ad, Gili; McGinnis, J. Randy; Pease, Rebecca; Dai, Amy H.; Schalk, Kelly A.; Benson, Spencer

    2010-01-01

    We investigated a pedagogical innovation in an undergraduate microbiology course (Microbes and Society) for non-majors and education majors. The goals of the curriculum and pedagogical transformation were to promote active learning and concentrate on clarity in teaching. This course was part of a longitudinal project (Project Nexus) which…

  14. Living in a material world: Development and evaluation of a new materials science course for non-science majors

    NASA Astrophysics Data System (ADS)

    Brust, Gregory John

    courses for non-science majors should focus on connections to students' daily lives while utilizing an STS curriculum and inquiry-based activities. Future research could focus on long term effects of this type of course as well as the effectiveness of these teaching methods for science majors.

  15. Teaching Science as Science Is Practiced: Opportunities and Limits for Enhancing Preservice Elementary Teachers' Self-Efficacy for Science and Science Teaching

    ERIC Educational Resources Information Center

    Avery, Leanne M.; Meyer, Daniel Z.

    2012-01-01

    Science teaching in elementary schools, or the lack thereof, continues to be an area of concern and criticism. Preservice elementary teachers' lack of confidence in teaching science is a major part of this problem. In this mixed-methods study, we report the impacts of an inquiry-based science course on preservice elementary teachers' self-efficacy…

  16. Do Biology Majors Really Differ from Non-STEM Majors?

    PubMed

    Cotner, Sehoya; Thompson, Seth; Wright, Robin

    2017-01-01

    Recent calls to action urge sweeping reform in science education, advocating for improved learning for all students-including those majoring in fields beyond the sciences. However, little work has been done to characterize the differences-if any exist-between students planning a career in science and those studying other disciplines. We describe an attempt to clarify, in broad terms, how non-STEM (science, technology, engineering, and mathematics) majors differ from life sciences majors, and how they are similar. Using survey responses and institutional data, we find that non-STEM majors are not unilaterally science averse; non-STEM majors are more likely than biology majors to hold misconceptions about the nature of science, yet they are not completely ignorant of how science works; non-STEM majors are less likely than biology majors to see science as personally relevant; and non-STEM majors populations are likely to be more diverse-with respect to incoming knowledge, perceptions, backgrounds, and skills-than a biology majors population. We encourage science educators to consider these characteristics when designing curricula for future scientists or simply for a well-informed citizenry. © 2017 S. Cotner et al. CBE—Life Sciences Education © 2017 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

  17. Myth, Music, and Science: Teaching the Philosophy of Science through the Use of Non-Scientific Examples.

    ERIC Educational Resources Information Center

    Slowik, Edward

    2003-01-01

    Explores the benefits of utilizing non-scientific examples and analogies in teaching philosophy of science courses. Utilizes a lengthy analogy between musical styles and Kuhn's theory of scientific revolution to demonstrate this strategy. (SOE)

  18. Are We Teaching Them Anything?: A Model for Measuring Methodology Skills in the Political Science Major

    ERIC Educational Resources Information Center

    Siver, Christi; Greenfest, Seth W.; Haeg, G. Claire

    2016-01-01

    While the literature emphasizes the importance of teaching political science students methods skills, there currently exists little guidance for how to assess student learning over the course of their time in the major. To address this gap, we develop a model set of assessment tools that may be adopted and adapted by political science departments…

  19. Engaging Non-Science Majors Through Citizen Science Projects In Inquiry-Based Introductory Geoscience Laboratory Courses

    NASA Astrophysics Data System (ADS)

    Humphreys, R. R.; Hall, C.; Colgan, M. W.; Rhodes, E.

    2010-12-01

    Although inquiry-based/problem-based methods have been successfully incorporated in undergraduate lecture classes, a survey of commonly used laboratory manuals indicates that few non-major geoscience laboratory classes use these strategies. The Department of Geology and Environmental Geosciences faculty members have developed a successful introductory Environmental Geology Laboratory course for undergraduate non-majors that challenges traditional teaching methodology as illustrated in most laboratory manuals. The Environmental Geology lab activities employ active learning methods to engage and challenge students. Crucial to establishing an open learning environment is capturing the attention of non-science majors from the moment they enter the classroom. We use catastrophic ‘gloom and doom’ current events to pique the imagination with images, news stories, and videos. Once our students are hooked, we can further the learning process with use of other teaching methods: an inquiry-based approach that requires students take control of their own learning, a cooperative learning approach that requires the participation of all team members in peer learning, and a problem/case study learning approach that primarily relies on activities distilled from current events. The final outcome is focused on creating innovative methods to communicate the findings to the general public. With the general public being the audience for their communiqué, students are less intimated, more focused, and more involved in solving the problem. During lab sessions, teams of students actively engage in mastering course content and develop essential communication skills while exploring real-world scenarios. These activities allow students to use scientific reasoning and concepts to develop solutions for scenarios such as volcanic eruptions, coastal erosion/sea level rise, flooding or landslide hazards, and then creatively communicate their solutions to the public. For example, during a two

  20. The effect of electronic networking on preservice elementary teachers' science teaching self-efficacy and attitude towards science teaching

    NASA Astrophysics Data System (ADS)

    Mathew, Nishi Mary

    Preservice elementary teachers' science teaching efficacy and attitude towards science teaching are important determinants of whether and how they will teach science in their classrooms. Preservice teachers' understanding of science and science teaching experiences have an impact on their beliefs about their ability to teach science. This study had a quasi-experimental pretest-posttest control group design (N = 60). Preservice elementary teachers in this study were networked through the Internet (using e-mail, newsgroups, listserv, world wide web access and electronic mentoring) during their science methods class and student practicum. Electronic networking provides a social context in which to learn collaboratively, share and reflect upon science teaching experiences and practices, conduct tele-research effectively, and to meet the demands of student teaching through peer support. It was hoped that the activities over the electronic networks would provide them with positive and helpful science learning and teaching experiences. Self-efficacy was measured using a 23-item Likert scale instrument, the Science Teaching Efficacy Belief Instrument, Form-B (STEBI-B). Attitude towards science teaching was measured using the Revised Science Attitude Scale (RSAS). Analysis of covariance was used to analyze the data, with pretest scores as the covariate. Findings of this study revealed that prospective elementary teachers in the electronically networked group had better science teaching efficacy and personal science teaching efficacy as compared to the non-networked group of preservice elementary teachers. The science teaching outcome expectancy of prospective elementary teachers in the networked group was not greater than that of the prospective teachers in the non-networked group (at p < 0.05). Attitude towards science teaching was not significantly affected by networking. However, this is surmised to be related to the duration of the study. Information about the

  1. Courses in Modern Physics for Non-science Majors, Future Science Teachers, and Biology Students

    NASA Astrophysics Data System (ADS)

    Zollman, Dean

    2001-03-01

    For the past 15 years Kansas State University has offered a course in modern physics for students who are not majoring in physics. This course carries a prerequisite of one physics course so that the students have a basic introduction in classical topics. The majors of students range from liberal arts to engineering. Future secondary science teachers whose first area of teaching is not physics can use the course as part of their study of science. The course has evolved from a lecture format to one which is highly interactive and uses a combination of hands-on activities, tutorials and visualizations, particularly the Visual Quantum Mechanics materials. Another course encourages biology students to continue their physics learning beyond the introductory course. Modern Miracle Medical Machines introduces the basic physics which underlie diagnosis techniques such as MRI and PET and laser surgical techniques. Additional information is available at http://www.phys.ksu.edu/perg/

  2. Teaching science in museums

    NASA Astrophysics Data System (ADS)

    Tran, Lynn Uyen

    Museums are free-choice, non-threatening, non-evaluative learning and teaching environments. They enable learners to revisit contents, authentic objects, and experiences at their own leisure as they continually build an understanding and appreciation of the concepts. Schools in America have used museums as resources to supplement their curriculum since the 19 th century. Field trip research is predominantly from the teachers' and students' perspectives, and draws attention to the importance for classroom teachers and students to prepare prior to field trips, have tasks, goals, and objectives during their time at the museum, and follow up afterwards. Meanwhile, museum educators' contributions to field trip experiences have been scantily addressed. These educators develop and implement programs intended to help students' explore science concepts and make sense of their experiences, and despite their limited time with students, studies show they can be memorable. First, field trips are a break in the usual routine, and thus have curiosity and attention attracting power. Second, classroom science teaching literature suggests teachers' teaching knowledge and goals can affect their behaviors, and in turn influence student learning. Third, classroom teachers are novices at planning and implementing field trip planners, and museum educators can share this responsibility. But little is reported on how the educators teach, what guides their instruction, how classroom teachers use these lessons, and what is gained from these lessons. This study investigates two of these inquiries. The following research questions guided this investigation. (1) How do educators teaching one-hour, one-time lessons in museums adapt their instruction to the students that they teach? (2) How do time limitations affect instruction? (3) How does perceived variability in entering student knowledge affect instruction? Four educators from two museums took part in this participant observation study to

  3. Engaging Non-Science Majors by Integrating Biology and the Liberal Arts

    ERIC Educational Resources Information Center

    Bozzone, Donna M.; Doyle, Mary Beth

    2017-01-01

    We describe a pair of fully integrated courses designed to teach biology to non-majors in a manner that connects authentically to the liberal arts. The co-taught courses were organized around the question: What does it mean to be human? Students investigated this question in the context of three topics: dis/ability, race, and sex and gender. In…

  4. Spatial abilities, Earth science conceptual understanding, and psychological gender of university non-science majors

    NASA Astrophysics Data System (ADS)

    Black, Alice A. (Jill)

    Research has shown the presence of many Earth science misconceptions and conceptual difficulties that may impede concept understanding, and has also identified a number of categories of spatial ability. Although spatial ability has been linked to high performance in science, some researchers believe it has been overlooked in traditional education. Evidence exists that spatial ability can be improved. This correlational study investigated the relationship among Earth science conceptual understanding, three types of spatial ability, and psychological gender, a self-classification that reflects socially-accepted personality and gender traits. A test of Earth science concept understanding, the Earth Science Concepts (ESC) test, was developed and field tested from 2001 to 2003 in 15 sections of university classes. Criterion validity was .60, significant at the .01 level. Spearman/Brown reliability was .74 and Kuder/Richardson reliability was .63. The Purdue Visualization of Rotations (PVOR) (mental rotation), the Group Embedded Figures Test (GEFT) (spatial perception), the Differential Aptitude Test: Space Relations (DAT) (spatial visualization), and the Bem Inventory (BI) (psychological gender) were administered to 97 non-major university students enrolled in undergraduate science classes. Spearman correlations revealed moderately significant correlations at the .01 level between ESC scores and each of the three spatial ability test scores. Stepwise regression analysis indicated that PVOR scores were the best predictor of ESC scores, and showed that spatial ability scores accounted for 27% of the total variation in ESC scores. Spatial test scores were moderately or weakly correlated with each other. No significant correlations were found among BI scores and other test scores. Scantron difficulty analysis of ESC items produced difficulty ratings ranging from 33.04 to 96.43, indicating the percentage of students who answered incorrectly. Mean score on the ESC was 34

  5. Motivating Non-Science Majors: The Technology of Electromagnetic Waves

    ERIC Educational Resources Information Center

    Henrich, Victor E.

    2018-01-01

    To address the need for physics courses that stimulate non- STEM majors' interest in, and appreciation of, science, the Department of Applied Physics has developed a popular course for Yale College undergraduates, The Technological World, that explains the physics behind technologies that students use every day. The course provides an in-depth…

  6. The teacher's role in college level classes for non-science majors: A constructivist approach for teaching prospective science teachers

    NASA Astrophysics Data System (ADS)

    Abbas, Abdullah Othman

    1997-12-01

    This interpretive research set out to investigate the characteristics of an exemplary college science instructor who endeavors to improve teaching and learning in a physical science course for prospective teachers. The course was innovative in the sense that it was designed to meet the specific needs of prospective elementary teachers who needed to have models of how to teach science in a way that employed materials and small group activities. The central purpose for this study is to understand the metaphors that Mark (a pseudonym), the chemistry instructor in the course, used as referents to conceptualize his roles and frame actions and interactions in the classroom. Within the theoretical frame of constructivism, human cognitive interests, and co-participation theories, an ethnographic research design, described by Erickson (1986), Guba and Lincoln (1989), and Gallagher (1991), was employed in the study. The main sources of data for this study were field notes, transcript analysis of interviews with the instructor and students, and analyses of videotaped excerpts. Additional data sources, such as student journals and the results of students' responses to the University/Community College Student Questionnaire which was developed by a group science education researchers at Florida State University, were employed to maximize that the assertions I constructed were consistent with the variety of data. Data analyses and interpretation in the study focused on identifying the aspects which the instructor and the researcher might find useful in reflecting to understand what was happening and why that was happening in the classroom. The analysis reveals how the instructor used constructivism as a referent for his teaching and the learning of his students. To be consistent with his beliefs and goals that prospective teachers should enjoy their journey of learning chemistry, Mark, the driver in the journey, used the roles of controller, facilitator, learner, and entertainer

  7. Profiles of Motivated Self-Regulation in College Computer Science Courses: Differences in Major versus Required Non-Major Courses

    ERIC Educational Resources Information Center

    Shell, Duane F.; Soh, Leen-Kiat

    2013-01-01

    The goal of the present study was to utilize a profiling approach to understand differences in motivation and strategic self-regulation among post-secondary STEM students in major versus required non-major computer science courses. Participants were 233 students from required introductory computer science courses (194 men; 35 women; 4 unknown) at…

  8. Teaching Mathematics to Non-Mathematics Majors through Applications

    ERIC Educational Resources Information Center

    Abramovich, Sergei; Grinshpan, Arcadii Z.

    2008-01-01

    This article focuses on the important role of applications in teaching mathematics to students with career paths other than mathematics. These include the fields as diverse as education, engineering, business, and life sciences. Particular attention is given to instructional computing as a means for concept development in mathematics education…

  9. Understandings of Nature of Science and Multiple Perspective Evaluation of Science News by Non-science Majors

    NASA Astrophysics Data System (ADS)

    Leung, Jessica Shuk Ching; Wong, Alice Siu Ling; Yung, Benny Hin Wai

    2015-10-01

    Understandings of nature of science (NOS) are a core component of scientific literacy, and a scientifically literate populace is expected to be able to critically evaluate science in the media. While evidence has remained inconclusive on whether better NOS understandings will lead to critical evaluation of science in the media, this study aimed at examining the correlation therein. Thirty-eight non-science majors, enrolled in a science course for non-specialists held in a local community college, evaluated three health news articles by rating the extent to which they agreed with the reported claims and providing as many justifications as possible. The majority of the participants were able to evaluate and justify their viewpoint from multiple perspectives. Students' evaluation was compared with their NOS conceptions, including the social and cultural embedded NOS, the tentative NOS, the peer review process and the community of practice. Results indicated that participants' understanding of the tentative NOS was significantly correlated with multiple perspective evaluation of science news reports of socioscientific nature (r = 0.434, p < 0.05). This moderate correlation suggested the association between understanding of the tentative NOS and multiple perspective evaluation of science in the media of socioscientific nature. However, the null result for other target NOS aspects in this study suggested a lack of evidence to assume that understanding the social dimensions of science would have significant influence on the evaluation of science in the media. Future research on identifying the reasons for why and why not NOS understandings are applied in the evaluation will move this field forward.

  10. Seeing a World in a Grain of Sand: Science Teaching in Multicultural Context.

    ERIC Educational Resources Information Center

    Chambers, David Wade

    1999-01-01

    Describes the Imagining Nature Project at Deakin University in Australia, and the Native Eyes Project at the Institute of American Indian Art in New Mexico. Both projects entail the teaching of science and technology to non-science majors of highly diverse cultural origin. They also incorporate innovative strategies to make science and technology…

  11. Teaching science and ethics to undergraduates: a multidisciplinary approach.

    PubMed

    McGowan, Alan H

    2013-06-01

    The teaching of the ethical implications of scientific advances in science courses for undergraduates has significant advantages for both science and non-science majors. The article describes three courses taught by the author as examples of the concept, and examines the disadvantages as well as the advantages. A significant advantage of this approach is that many students take the courses primarily because of the ethical component who would not otherwise take science. A disadvantage is less time in the course for the science; arguably, this is outweighed by the greater retention of the science when it is put into context.

  12. Using the Geoscience Literacy Frameworks and Educational Technologies to Promote Science Literacy in Non-science Major Undergraduates

    NASA Astrophysics Data System (ADS)

    Carley, S.; Tuddenham, P.; Bishop, K. O.

    2008-12-01

    In recent years several geoscience communities have been developing ocean, climate, atmosphere and earth science literacy frameworks as enhancements to the National Science Education Standards content standards. Like the older content standards these new geoscience literacy frameworks have focused on K-12 education although they are also intended for informal education and general public audiences. These geoscience literacy frameworks potentially provide a more integrated and less abstract approach to science literacy that may be more suitable for non-science major students that are not pursuing careers in science research or education. They provide a natural link to contemporary environmental issues - e.g., climate change, resource depletion, species and habitat loss, natural hazards, pollution, development of renewable energy, material recycling. The College of Exploration is an education research non-profit that has provided process and technical support for the development of most of these geoscience literacy frameworks. It has a unique perspective on their development. In the last ten years it has also gained considerable national and international expertise in facilitating web-based workshops that support in-depth conversations among educators and working scientists/researchers on important science topics. These workshops have been of enormous value to educators working in K-12, 4-year institutions and community colleges. How can these geoscience literacy frameworks promote more collaborative inquiry-based learning that enhances the appreciation of scientific thinking by non-majors? How can web- and mobile-based education technologies transform the undergraduate non-major survey course into a place where learners begin their passion for science literacy rather than end it? How do we assess science literacy in students and citizens?

  13. Safety and Science Teaching.

    ERIC Educational Resources Information Center

    Virginia State Dept. of Education, Richmond. Div. of Sciences and Elementary Administration.

    This 10-chapter handbook (designed for science teachers and school administrators) describes known hazards associated with science teaching and provides information to develop a framework for local safety programs specifically designed to avoid or neutralize the effects of such hazards. Major areas addressed in the chapters include: (1) the nature…

  14. Profiles of Motivated Self-Regulation in College Computer Science Courses: Differences in Major versus Required Non-Major Courses

    NASA Astrophysics Data System (ADS)

    Shell, Duane F.; Soh, Leen-Kiat

    2013-12-01

    The goal of the present study was to utilize a profiling approach to understand differences in motivation and strategic self-regulation among post-secondary STEM students in major versus required non-major computer science courses. Participants were 233 students from required introductory computer science courses (194 men; 35 women; 4 unknown) at a large Midwestern state university. Cluster analysis identified five profiles: (1) a strategic profile of a highly motivated by-any-means good strategy user; (2) a knowledge-building profile of an intrinsically motivated autonomous, mastery-oriented student; (3) a surface learning profile of a utility motivated minimally engaged student; (4) an apathetic profile of an amotivational disengaged student; and (5) a learned helpless profile of a motivated but unable to effectively self-regulate student. Among CS majors and students in courses in their major field, the strategic and knowledge-building profiles were the most prevalent. Among non-CS majors and students in required non-major courses, the learned helpless, surface learning, and apathetic profiles were the most prevalent. Students in the strategic and knowledge-building profiles had significantly higher retention of computational thinking knowledge than students in other profiles. Students in the apathetic and surface learning profiles saw little instrumentality of the course for their future academic and career objectives. Findings show that students in STEM fields taking required computer science courses exhibit the same constellation of motivated strategic self-regulation profiles found in other post-secondary and K-12 settings.

  15. Science Teaching Efficacy of Preservice Elementary Teachers: Examination of the Multiple Factors Reported as Influential

    NASA Astrophysics Data System (ADS)

    Taştan Kırık, Özgecan

    2013-12-01

    This study explores the science teaching efficacy beliefs of pr-service elementary teachers and the relationship between efficacy beliefs and multiple factors such as antecedent factors (participation in extracurricular activities and number of science and science teaching methods courses taken), conceptual understanding, classroom management beliefs and science teaching attitudes. Science education majors ( n = 71) and elementary education majors ( n = 262) were compared with respect to these variables. Finally, the predictors of two constructs of science teaching efficacy beliefs, personal science teaching efficacy (PSTE) and science teaching outcome expectancy (STOE), were examined by multiple linear regression analysis. According to the results, participation in extracurricular activities has a significant but low correlation with science concept knowledge, science teaching attitudes, PSTE and STOE. In addition, there is a small but significant correlation between science concept knowledge and outcome expectancy, which leads the idea that preservice elementary teachers' conceptual understanding in science contributes to their science teaching self-efficacy. This study reveals a moderate correlation between science teaching attitudes and STOE and a high correlation between science teaching attitudes and PSTE. Additionally, although the correlation coefficient is low, the number of methodology courses was found to be one of the correlates of science teaching attitudes. Furthermore, students of both majors generally had positive self-efficacy beliefs on both the STOE and PSTE. Specifically, science education majors had higher science teaching self-efficacy than elementary education majors. Regression results showed that science teaching attitude is the major factor in predicting both PSTE and STOE for both groups.

  16. Field Trips Put Chemistry in Context for Non-Science Majors

    ERIC Educational Resources Information Center

    Peterman, Keith E.

    2008-01-01

    Field trips can provide excellent real-world learning situations for students in non-science major chemistry courses. The field trips described in this article are accessible, most trips can be completed within a scheduled three-hour laboratory time period, and they can be conducted at minimal cost. These field trips significantly enhanced student…

  17. The Physics of Life: A Biophysics Course for Non-science Major Undergraduates

    NASA Astrophysics Data System (ADS)

    Parthasarathy, Raghuveer

    2014-03-01

    Enhancing the scientific literacy of non-scientists is an important goal, both because of the ever-increasing impact of science and technology on people's lives, and because understanding contemporary science enables enriching insights into the workings of nature. One route to improving scientific literacy is via general education undergraduate courses - i.e. courses intended for students not majoring in the sciences or engineering - which in many cases provide these students' last formal exposure to science. I describe here a course on biophysics for non-science-major undergraduates recently developed at the University of Oregon. Biophysics, I claim, is a particularly useful vehicle for addressing scientific literacy. It involves important and general scientific concepts, demonstrates connections between basic science and tangible, familiar phenomena related to health and disease, and illustrates how scientific insights proceed not in predictable paths, but rather by applying tools and perspectives from disparate fields in creative ways. In addition, it highlights the far-reaching impact of physics research. I describe the general design of this course and the specific content of a few of its modules, as well as noting aspects of enrollment and evaluation. This work is affiliated with the University of Oregon's Science Literacy Program, supported by a grant from the Howard Hughes Medical Institute.

  18. Sources of Science Teaching Self-Efficacy for Preservice Elementary Teachers in Science Content Courses

    ERIC Educational Resources Information Center

    Menon, Deepika; Sadler, Troy D.

    2018-01-01

    Self-efficacy beliefs play a major role in determining teachers' science teaching practices and have been a topic of great interest in the area of preservice science teacher education. This qualitative study investigated factors that influenced preservice elementary teachers' science teaching self-efficacy beliefs in a physical science content…

  19. Teaching Climate Science in Non-traditional Classrooms

    NASA Astrophysics Data System (ADS)

    Strybos, J.

    2015-12-01

    San Antonio College is the oldest, largest and centrally-located campus of Alamo Colleges, a network of five community colleges based around San Antonio, Texas with a headcount enrollment of approximately 20,000 students. The student population is diverse in ethnicity, age and income; and the Colleges understand that they play a salient role in educating its students on the foreseen impacts of climate change. This presentation will discuss the key investment Alamo Colleges has adopted to incorporate sustainability and climate science into non-traditional classrooms. The established courses that cover climate-related course material have historically had low enrollments. One of the most significant challenges is informing the student population of the value of this class both in their academic career and in their personal lives. By hosting these lessons in hands-on simulations and demonstrations that are accessible and understandable to students of any age, and pursuing any major, we have found an exciting way to teach all students about climate change and identify solutions. San Antonio College (SAC) hosts the Bill R. Sinkin Eco Centro Community Center, completed in early 2014, that serves as an environmental hub for Alamo Colleges' staff and students as well as the San Antonio community. The center actively engages staff and faculty during training days in sustainability by presenting information on Eco Centro, personal sustainability habits, and inviting faculty to bring their classes for a tour and sustainability primer for students. The Centro has hosted professors from diverse disciplines that include Architecture, Psychology, Engineering, Science, English, Fine Arts, and International Studies to bring their classes to center to learn about energy, water conservation, landscaping, and green building. Additionally, Eco Centro encourages and assists students with research projects, including a solar-hydroponic project currently under development with the support

  20. Doubling the number of physics majors who teach

    NASA Astrophysics Data System (ADS)

    Marder, Michael

    2009-03-01

    The American Physical Society has adopted a doubling initiative to increase the number of physics majors. One of the main motivations is to increase the number of physics majors certified to teach secondary physics. I will review some of the possible strategies for reaching this goal, and discuss some of the steps we have taken with UTeach, the program for secondary science and mathematics teacher preparation at The University of Texas at Austin.I will discuss the roles of curriculum revision, financial support, and community support in convincing majors to teach. Finally, I will talk about the expansion of UTeach into engineering.

  1. Toward making the invisible visible: Studying science teaching self-efficacy beliefs

    NASA Astrophysics Data System (ADS)

    Perkins, Catherine J.

    This dissertation consists of two articles to be submitted for publication. The first, a literature review, makes visible common influences on science teaching self-efficacy beliefs and also points to potentially invisible validation concerns regarding the instrument used. The second investigates the participants' invisible science teaching self-efficacy beliefs and, through the use of a more focused interview, makes those beliefs visible. Science teaching self-efficacy beliefs are science teachers' perceptions of their abilities to teach science effectively. The construct "teaching self-efficacy" originated in social cognitive theory (Bandura, 1977). The first article reviews the mixed results from teaching self-efficacy research in science contexts. The review focuses upon factors that facilitate or inhibit the development of self-efficacy beliefs among science teachers across stages of their careers. Although many studies of science teaching self-efficacy beliefs have utilized the Science Teaching Efficacy Belief Instrument - STEBI (Enochs & Riggs, 1990; Riggs & Enochs, 1990), this review also includes non-STEBI studies in order to represent diverse lines of research methodology. The review's findings indicate that antecedent factors such as science activities in and out of school, teacher preparation, science teaching experiences and supportive job contexts are significant influences on the development of science teaching self-efficacy beliefs. The review also indicates that the majority of these studies are short term and rely on a single STEBI administration with the collection of antecedent/demographic and/or interview data. The second article documents a study that responded to the above literature review findings. This study utilized multiple STEBI administrations during the preservice and beginning year of teaching for two science teachers. Rather than general questions, these participants were asked item specific, yet open-ended, questions to determine

  2. Investigating How Nontraditional Elementary Pre-service Teachers Negotiate the Teaching of Science

    NASA Astrophysics Data System (ADS)

    Shelton, Mythianne

    This qualitative study was designed to investigate the influences on nontraditional preservice teachers as they negotiated the teaching of science in elementary school. Based upon a sociocultural theoretical framework with an identity-in-practice lens, these influences included beliefs about science teaching, life experiences, and the impact of the teacher preparation program. The study sample consisted of two nontraditional preservice teachers who were student teaching in an elementary classroom. Data, collected over a five-month period, included in-depth individual interviews, classroom observations, audio recordings, and reviews of documentations. Interviews focused on the participants' beliefs relating to the teaching of science, prior experiences, and their teacher preparation program experiences relating to the teaching of science. Classroom observations provided additional insights into the classroom setting, participants' teaching strategies, and participants' interactions with the students and cooperating teacher. A whole-text analysis of the interview transcripts, observational field notes, audio recordings and documents generated eight major categories: beliefs about science teaching, role of family, teaching science in the classroom, teacher identity, non-teacher identity, relationships with others, discourses of classroom teaching, and discourses of teachers. The following significant findings emerged from the data: (a) the identity of nontraditional student teachers as science teachers related to early life experiences in science classes; (b) the identity of nontraditional student teachers as science teachers was influenced by their role as parents; (c) nontraditional student teachers learned strategies that supported their beliefs about inquiry learning; and (d) nontraditional student teachers valued the teacher preparation program support system. The results from this qualitative study suggest that sociocultural theory with an identity

  3. Reflective Pathways: Analysis of an Urban Science Teaching Field Experience on Noyce Scholar-Science Education Awardees' Decisions to Teach Science in a High-Need New York City School

    ERIC Educational Resources Information Center

    Bischoff, Paul; French, Paul; Schaumloffel, John

    2014-01-01

    Awardees of the National Science Foundation's Noyce Scholars funds are required to teach science in high-need urban or rural school districts upon graduation. The purpose of this research was to analyze the reflective considerations that distinguish preservice Noyce Scholar science education majors committed to teaching in high-need New York City…

  4. Motivating Non-science Majors: The Technology of Electromagnetic Waves

    NASA Astrophysics Data System (ADS)

    Henrich, Victor E.

    2018-01-01

    To address the need for physics courses that stimulate non-STEM majors' interest in, and appreciation of, science, the Department of Applied Physics has developed a popular course for Yale College undergraduates, The Technological World, that explains the physics behind technologies that students use every day. The course provides an in-depth development of electromagnetic waves, applying them to technologies as diverse as LCD displays, GPS, fiber optics, CAT scans, LEDs, and stealth aircraft. It utilizes a conventional lecture format, with many in-class demonstrations.

  5. Undergraduate Non-Science Majors' Descriptions and Interpretations of Scientific Data Visualizations

    ERIC Educational Resources Information Center

    Swenson, Sandra Signe

    2010-01-01

    Professionally developed and freely accessible through the Internet, scientific data maps have great potential for teaching and learning with data in the science classroom. Solving problems or developing ideas while using data maps of Earth phenomena in the science classroom may help students to understand the nature and process of science. Little…

  6. A New Approach to Teaching Science to Elementary Education Majors in Response to the NGSS

    NASA Astrophysics Data System (ADS)

    Brevik, C.; Daniels, L.; McCoy, C.

    2015-12-01

    The Next Generation Science Standards (NGSS) place an equal emphasis on science process skills and science content. The goal is to have K-12 students "doing" science, not just "learning about" science. However, most traditional college science classes for elementary education majors place a much stronger emphasis on science content knowledge with the hands-on portion limited to a once-a-week lab. The two models of instruction are not aligned. The result is that many elementary school teachers are unprepared to offer interactive science with their students. Without additional coaching, many teachers fall back on the format they learned in college - lecture, handouts, homework. If we want teachers to use more hands-on methods in the classroom, these techniques should be taught to elementary education majors when they are in college. Dickinson State University has begun a collaboration between the Teacher Education Department and the Department of Natural Sciences. The physical science course for elementary education majors has been completely redesigned to focus equally on the needed science content and the science process skills emphasized by the NGSS. The format of the course has been adjusted to more closely mirror a traditional K-5 classroom; the course meets for 50 minutes five days a week. A flipped-classroom model has been adopted to ensure no content is lost, and hands-on activities are done almost every day as new concepts are discussed. In order to judge the effectiveness of these changes, a survey tool was administered to determine if there was a shift in the students' perception of science as an active instead of a passive field of study. The survey also measured the students' comfort-level in offering a hands-on learning environment in their future classrooms and their confidence in their ability to effectively teach science concepts to elementary students. Results from the first year of the study will be presented.

  7. A Course for the Non-Science Major in an Open Admissions Urban Community College

    ERIC Educational Resources Information Center

    Jaffe, Marvin R.; And Others

    1975-01-01

    Describes an introductory chemistry course for non-science majors with poor backgrounds in mathematics and English. The course goal was to develop an appreciation of the importance of chemistry to everyday life experiences and to the major area of the student. (GS)

  8. Evaluation of Science in the Media by Non-Science Majors

    ERIC Educational Resources Information Center

    Leung, Jessica Shuk Ching; Wong, Alice Siu Ling; Yung, Benny Hin Wai

    2017-01-01

    Without a science background as sophisticated as that of a scientist, the evaluation of science in the media has proved to be a challenge to members of the public who are largely non-specialists. It is generally assumed that understandings of nature of science (NOS) will lead to this desired outcome of scientific literacy. This study examined the…

  9. Seeing a World in a Grain of Sand: Science Teaching in Multicultural Context

    NASA Astrophysics Data System (ADS)

    Chambers, David Wade

    This paper briefly describes two unusual curriculum plans: the Imagining Nature Project at Deakin University in Geelong, Victoria, Australia and the Native Eyes Project at the Institute of American Indian Art in Santa Fe, New Mexico Among other things, both projects entail the teaching of science and technology studies to non-science majors of highly diverse cultural origin. Both projects also incorporate innovative strategies designed to make science and technology more credible and relevant to indigenous people.

  10. Teaching and Learning Science for Transformative, Aesthetic Experience

    NASA Astrophysics Data System (ADS)

    Girod, Mark; Twyman, Todd; Wojcikiewicz, Steve

    2010-11-01

    Drawing from the Deweyan theory of experience (1934, 1938), the goal of teaching and learning for transformative, aesthetic experience is contrasted against teaching and learning from a cognitive, rational framework. A quasi-experimental design was used to investigate teaching and learning of fifth grade science from each perspective across an entire school year including three major units of instruction. Detailed comparisons of teaching are given and pre and post measures of interest in learning science, science identity affiliation, and efficacy beliefs are investigated. Tests of conceptual understanding before, after, and one month after instruction reveal teaching for transformative, aesthetic experience fosters more, and more enduring, learning of science concepts. Investigations of transfer also suggest students learning for transformative, aesthetic experiences learn to see the world differently and find more interest and excitement in the world outside of school.

  11. Sources of self-efficacy in an undergraduate introductory astronomy course for non-science majors

    NASA Astrophysics Data System (ADS)

    Carter, Brooke L.

    The role of the astronomy laboratory on non-science major student self-efficacy is investigated through combining quantitative and qualitative methodologies. The Astronomy Diagnostic Test 2.0 is distributed to an introductory astronomy laboratory for non-science major class in the Spring of 2005. The ADT 2.0 is used to draw comparisons between interview subjects and the remaining class. Eight subjects were interviewed three times throughout the semester in order to determine the important contributing factors to the subjects' self-efficacy beliefs. Results of the quantitative data suggest that the interview participants' general science self-efficacy did not significantly increase over the course of the semester. Results of the quantitative data suggest the most important contributor to the subjects' self-efficacy in the laboratory is verbal persuasion. The results of this limited study suggest that the astronomy laboratory experience is a strong contributor to student self-efficacy beliefs.

  12. Competitive Science Events: Gender, Interest, Science Self-Efficacy, and Academic Major Choice

    NASA Astrophysics Data System (ADS)

    Forrester, Jennifer Harris

    Understanding present barriers to choosing a STEM major is important for science educators so that we may better prepare and inspire future generations of scientists and engineers. This study examined the relationships between participation in competitive science events, gender, race, science self-efficacy, interest in science, and choosing a STEM discipline as a college major. The participants included 1,488 freshman students at a large southeastern public university. Students completed a survey of pre-college experiences with science events, science interests, and college major, as well as, an assessment of science self-efficacy. A subsample of sixty students (30 STEM; 30 non-STEM majors) were interviewed about their participation and academic major choice. Results showed that science, engineering, and non-STEM disciplines were the most frequently reported academic majors. Significant gender differences were found for science self-efficacy and academic major choice. There were significant race differences for participation in specific types of science competitions. Study participants also reported being motivated to participate in a competitive science event as a result of their teacher or parents' encouragement.

  13. Science teaching in science education

    NASA Astrophysics Data System (ADS)

    Callahan, Brendan E.; Dopico, Eduardo

    2016-06-01

    Reading the interesting article Discerning selective traditions in science education by Per Sund , which is published in this issue of CSSE, allows us to open the discussion on procedures for teaching science today. Clearly there is overlap between the teaching of science and other areas of knowledge. However, we must constantly develop new methods to teach and differentiate between science education and teaching science in response to the changing needs of our students, and we must analyze what role teachers and teacher educators play in both. We must continually examine the methods and concepts involved in developing pedagogical content knowledge in science teachers. Otherwise, the possibility that these routines, based on subjective traditions, prevent emerging processes of educational innovation. Modern science is an enormous field of knowledge in its own right, which is made more expansive when examined within the context of its place in society. We propose the need to design educative interactions around situations that involve science and society. Science education must provide students with all four dimensions of the cognitive process: factual knowledge, conceptual knowledge, procedural knowledge, and metacognitive knowledge. We can observe in classrooms at all levels of education that students understand the concepts better when they have the opportunity to apply the scientific knowledge in a personally relevant way. When students find value in practical exercises and they are provided opportunities to reinterpret their experiences, greater learning gains are achieved. In this sense, a key aspect of educational innovation is the change in teaching methodology. We need new tools to respond to new problems. A shift in teacher education is needed to realize the rewards of situating science questions in a societal context and opening classroom doors to active methodologies in science education to promote meaningful learning through meaningful teaching.

  14. Dazed and Confused: Learning to Engage Non-Science Undergraduates in the Geosciences

    NASA Astrophysics Data System (ADS)

    Price, J.

    2014-12-01

    Teaching science courses to non-science undergraduate is often times difficult and frustrating for instructors because of the lack of interest and knowledge from students. Additionally, students find it difficult to learn from instructors that are not engaging or are unable to simplify concepts, methods, and analyses. These complications multiple when graduate students try to teach non-science undergraduates. Graduate instructional/teaching assistants have less teaching experience, often do not care about teaching, and frequently get frustrated with non-science undergraduates more easily. This presentation will focus on teaching non-science undergraduates in marine science and geology classes by engaging students, simplifying concepts, working in groups, and making the material fun and interesting. Instructional/teaching assistants teach undergraduate courses as a way to pay for their graduate education and in doing so, often forget to express their passion and interest in the subject. Graduate instructional/teaching assistants will be asked not give up on undergraduates because of their lack of interest and experience but rather challenge them to remember what it is like to feel lost and disinterested. While we may not be able to turn them into scientists, we can share our passion, teach them scientific concepts, and hope they leave feeling more knowledgeable, comfortable, and with more appreciation for the geosciences.

  15. Values of Catholic science educators: Their impact on attitudes of science teaching and learning

    NASA Astrophysics Data System (ADS)

    DeMizio, Joanne Greenwald

    This quantitative study examined the associations between the values held by middle school science teachers in Catholic schools and their attitudes towards science teaching. A total of six value types were studied---theoretical, economic, aesthetic, social, political, and religious. Teachers can have negative, positive, or neutral attitudes towards their teaching that are linked to their teaching practices and student learning. These teachers' attitudes may affect their competence and have a subsequent impact on their students' attitudes and dispositions towards science. Of particular interest was the relationship between science teaching attitudes and religious values. A non-experimental research design was used to obtain responses from 54 teachers with two survey instruments, the Science Teaching Attitude Scale II and the Allport-Vernon-Lindzey Study of Values. Stepwise multiple regression analysis showed that political values were negatively associated with attitudes towards science teaching. Data collected were inconsistent with the existence of any measurable association between religious values and attitudes towards science teaching. This study implies that science teacher preparation programs should adopt a more contextual perspective on science that seeks to develop the valuation of science within a cultural context, as well as programs that enable teachers to identify the influence of their beliefs on instructional actions to optimize the impact of learning new teaching practices that may enhance student learning.

  16. Teaching Elementary Accounting to Non-Accounting Majors

    ERIC Educational Resources Information Center

    Lloyd, Cynthia B.; Abbey, Augustus

    2009-01-01

    A central recurring theme in business education is the optimal strategy for improving introductory accounting, the gateway subject of business education. For many students, especially non-accounting majors, who are required to take introductory accounting as a requirement of the curriculum, introductory accounting has become a major obstacle for…

  17. Study of Turkish Preschool Teachers' Attitudes toward Science Teaching

    NASA Astrophysics Data System (ADS)

    Erden, Feyza T.; Sönmez, Sema

    2011-05-01

    This study aims to explore preschool teachers' attitudes toward science teaching and its impact on classroom practices through the frequency of science activities provided in the classroom. In addition, the study investigates if their attitudes are related to factors such as educational level, years of teaching experience, and the school type they work in. The present research was conducted with 292 preschool teachers who work in public and private schools in different districts of Ankara, Turkey. The data were collected by administering the Early Childhood Teachers' Attitudes toward Science Teaching Scale. Our analyses indicate that there is a significant but weak link between preschool teachers' attitudes toward science teaching and the frequency of science activities that they provide in the classroom. Further, while teachers' characteristics such as educational level and experience are found to play an insignificant role on the overall measures of the scale, type of school appears to be a major factor in explaining the attitudes toward science teaching.

  18. "Science Is Not My Thing": Exploring Deaf Non-Science Majors' Science Identities

    ERIC Educational Resources Information Center

    Gormally, Cara L.; Marchut, Amber

    2017-01-01

    Students who are deaf and hard-of-hearing are underrepresented in science majors, yet we know little about why. Students from other underrepresented groups in science--women and people of color--tend to highly value altruistic or communal career goals, while perceiving science as uncommunal. Research suggests that holding stereotypical conceptions…

  19. Science Teaching in Science Education

    ERIC Educational Resources Information Center

    Callahan, Brendan E.; Dopico, Eduardo

    2016-01-01

    Reading the interesting article "Discerning selective traditions in science education" by Per Sund, which is published in this issue of "CSSE," allows us to open the discussion on procedures for teaching science today. Clearly there is overlap between the teaching of science and other areas of knowledge. However, we must…

  20. Exploring the Impact of TeachME™ Lab Virtual Classroom Teaching Simulation on Early Childhood Education Majors' Self-Efficacy Beliefs

    NASA Astrophysics Data System (ADS)

    Bautista, Nazan Uludag; Boone, William J.

    2015-04-01

    The purpose of this study was to investigate the impact of a mixed-reality teaching environment, called TeachME™ Lab (TML), on early childhood education majors' science teaching self-efficacy beliefs. Sixty-two preservice early childhood teachers participated in the study. Analysis of the quantitative (STEBI-b) and qualitative (journal entries) data revealed that personal science teaching efficacy and science teaching outcome expectancy beliefs increased significantly after one semester of participation in TML. Three key factors impacted preservice teachers' (PST) self-efficacy beliefs in the context of participation in TML: PSTs' perceptions of their science content knowledge, their familiarity with TML technology and avatars, and being observed by peers. Cognitive pedagogical mastery (TML practices), effective/actual modeling, cognitive self-modeling, and emotional arousal were the primary sources that increased the PSTs' perceived self-efficacy beliefs. Overall, the results of this study suggest that the TML is a worthwhile technology for learning to teach in teacher education. It provides a way for PSTs to have a highly personalized learning experience that enables them to improve their understanding and confidence related to teaching science, so that ideally someday they may translate such an experience into their classroom practices.

  1. A Professional Development Teaching Course for Science Graduate Students

    ERIC Educational Resources Information Center

    Baumgartner, Erin

    2007-01-01

    Although the majority of the teaching faculty at U.S. universities is composed of people who are scientific experts, research has found that most scientists do not have information about effective teaching methods (DeHaan 2005). Traditional lecture-style college science teaching does not reflect knowledge about best teaching practices based upon…

  2. Gamification for Non-Majors Mathematics: An Innovative Assignment Model

    ERIC Educational Resources Information Center

    Leong, Siow Hoo; Tang, Howe Eng

    2017-01-01

    The most important ingredient of the pedagogy for teaching non-majors is getting their engagement. This paper proposes to use gamification to engage non-majors. An innovative game termed as Cover the Hungarian's Zeros is designed to tackle the common weakness of non-majors mathematics in solving the assignment problem using the Hungarian Method.…

  3. Assessment of Teaching Methods and Critical Thinking in a Course for Science Majors

    NASA Astrophysics Data System (ADS)

    Speck, Angela; Ruzhitskaya, L.; Whittington, A. G.

    2014-01-01

    Ability to think critically is a key ingredient to the scientific mindset. Students who take science courses may or may not be predisposed to critical thinking - the ability to evaluate information analytically. Regardless of their initial stages, students can significantly improve their critical thinking through learning and practicing their reasoning skills, critical assessments, conducting and reflecting on observations and experiments, building their questioning and communication skills, and through the use of other techniques. While, there are several of teaching methods that may help to improve critical thinking, there are only a few assessment instruments that can help in evaluating the efficacy of these methods. Critical thinking skills and improvement in those skills are notoriously difficult to measure. Assessments that are based on multiple-choice questions demonstrate students’ final decisions but not their thinking processes. In addition, during the course of studies students may develop subject-based critical thinking while not being able to extend the skills to the general critical thinking. As such, we wanted to design and conduct a study on efficacy of several teaching methods in which we would learn how students’ improve their thinking processes within a science discipline as well as in everyday life situations. We conducted a study among 20 astronomy, physics and geology majors-- both graduate and undergraduate students-- enrolled in our Solar System Science course (mostly seniors and early graduate students) at the University of Missouri. We used the Ennis-Weir Critical Thinking Essay test to assess students’ general critical thinking and, in addition, we implemented our own subject-based critical thinking assessment. Here, we present the results of this study and share our experience on designing a subject-based critical thinking assessment instrument.

  4. Exploring the Impact of TeachME™ Lab Virtual Classroom Teaching Simulation on Early Childhood Education Majors' Self-Efficacy Beliefs

    ERIC Educational Resources Information Center

    Bautista, Nazan Uludag; Boone, William J.

    2015-01-01

    The purpose of this study was to investigate the impact of a mixed-reality teaching environment, called TeachME™ Lab (TML), on early childhood education majors' science teaching self-efficacy beliefs. Sixty-two preservice early childhood teachers participated in the study. Analysis of the quantitative (STEBI-b) and qualitative (journal entries)…

  5. The effect of explicit, inquiry instruction on freshman college science majors' understanding of the nature of science

    NASA Astrophysics Data System (ADS)

    Kenyon, Lisa Orvik

    Reform efforts have placed strong emphasis on teaching practices that should help students learn about the nature of science. Researchers have examined two general instructional approaches, explicit and implicit, believed to be useful in teaching science. Of these two approaches, researchers emphasize explicit instruction as the more effective approach when enhancing students' views of the scientific endeavor (Abd-El-Khalick & Lederman, 2000; Bell, 2001; Billeh & Hasan, 1975; Carey & Stauss, 1968; Schwartz et al., 2000). Furthermore, recent studies (Schwartz et al ., 2000, 2001) indicate that teaching science inquiry through investigative activities and reflective discussions have demonstrated to be most effective for understanding science. The purpose of this study was to describe the effect of explicit, inquiry instruction on the understanding of freshman college science majors regarding the nature of science. Participants included 74 freshman college science majors, 50 students in the experimental group and 24 students in the control group. The experimental group was exposed to the treatment of the study, which took place in a Succeeding in Science course. The course content included explicit instruction on the nature of science, emphasizing scientific inquiry and the processes that scientists carry out in their work. The course reflected three aspects of inquiry-based science that are discussed in the Inquiry and the National Science Education Standards (2000) which are (1) to learn the principles and concepts of science; (2) to participate in scientific investigations; and (3) to reflect on the epistemology of science. The research design of this study used a pretest-posttest instrument, The Views of Nature of Science Questionnaire Form C (VNOS-C) (Lederman et al., 2001) and an essay paper at the end of the course to assess students' understanding about the nature of science. The results from the VNOS-C were analyzed using analysis of covariance in which the

  6. The effects of an intervention to increase liberal arts mathematics and science majors' knowledge of and attitudinal favorability toward the teaching profession

    NASA Astrophysics Data System (ADS)

    Klemballa, Carolyn

    In light of the persistent shortage of qualified mathematics and science teachers and the new teacher qualification provisions of the recently passed No Child Left Behind Act, This study tested the impact of an educational intervention designed to enhance interest in public school teaching careers among undergraduate students who were declared/intended majors in mathematics and/or natural science. Besides salary, research reveals content fear as the biggest roadblock to attracting mathematics and science teachers. Because of this, liberal arts majors in mathematics and science are a target pool of individuals to recruit into teaching. The researcher hypothesized that knowledge and attitudinal favorability would both increase after an intervention about teaching careers and that an increase in one variable would be associated with the other. Also, knowledge and attitudinal favorability would have a greater increase after a more intensive intervention than a less intensive intervention or no intervention. The researcher also hypothesized that if undergraduates were less decided in their career, lower classmen, and female, their attitudes toward the teaching profession would increase the most. One hundred eighty-nine college students, 73 males and 116 females, including 85 freshmen, 67 sophomores, 18 juniors and 19 seniors, at University A and University B were randomly assigned to a workshop, reading, or control group. The workshop group attended a workshop about the teaching profession. The reading group read articles with the same information presented in the workshop. The control group read unrelated articles. The findings from this study indicate that an intervention about teaching does significantly increase both knowledge and attitudinal favorability toward teaching (p < .01). A low significant correlation was found between knowledge and attitudinal favorability (p < .05). Findings also suggested that a more intensive intervention yields a higher increase in

  7. Professional development in college science teaching

    NASA Astrophysics Data System (ADS)

    Thomas, Aimee Kathryn

    Graduate students earning a doctorate in the sciences historically focus their work on research and not professional development in college science teaching. However, for those who go on to a career in academia, a majority of their time will be dedicated to teaching. During the past few years, graduate teaching assistants (GTAs) have been prepared to teach by attending a daylong workshop that included logistical information, but left pedagogy largely unexplored. Since that time, a seminar has been added to provide an introduction to pedagogical theory and practices and to provide practice teaching in the biological sciences laboratory course. Yet, more pedagogical preparation is needed. This study was conducted to determine if there was a need for a teaching certificate program for doctoral students in the College of Science and Technology (CoST) at The University of Southern Mississippi. The GTA respondents studied set teaching goals that were consistent with faculty members across the country; however, this research went further by finding out how competent the GTAs perceived they were and how much support they perceived they needed with respect to teaching and professional development. The GTAs did not differ in their perceived level of competence based on experience level; however, the less experienced GTAs did perceive they needed more support than the experienced GTAs. To help GTAs develop a skill set that many CoST graduates currently lack, it is recommended that the University provide ample training and supervision. Establishing a certificate program can potentially impact the community in the following ways: (1) the training of GTAs contributes to the academic preparation of future academic professionals who will be teaching in various institutions; (2) GTA training provides professional development and awareness that teaching requires life long professional development; (3) ensuring competent academicians, not only in content but also in pedagogy; (4

  8. Genetics Content in Introductory Biology Courses for Non-Science Majors: Theory and Practice.

    ERIC Educational Resources Information Center

    Hott, Adam M.; Huether, Carl A.; McInerney, Joseph D.; Christianson, Carol; Fowler, Robert; Bender, Harvey; Jenkins, John; Wysocki, Annette; Markle, Glenn; Karp, Richard

    2002-01-01

    Presents the recommendations of the Human Genetic Education Subcommittee of the American Society of Human Genetics (ASHG) on the development of introductory biology courses for non-science majors addressing the list of concepts including evolution, transmission, gene expression, gene regulation, and genetics and society. Used an online survey to…

  9. Preservice elementary teachers' alternative conceptions of science and their self-efficacy beliefs about science teaching

    NASA Astrophysics Data System (ADS)

    Koc, Isil

    The present study was conducted to investigate the extent to which preservice elementary teachers held alternative conceptions in fundamental elementary science concepts from earth/space science, life science, and physical science along with their self-efficacy beliefs about science teaching and to determine the relationship between these two issues. Eighty-six preservice elementary education majors enrolled in the four sections of the course titled "07E:162 Methods Elementary School Science" offered in the Science Education Center, College of Education, the University of Iowa during the 2005-2006 academic year participated in this study. Twelve preservice elementary teachers participated in follow-up interviews. Data were collected through the use of Alternative Conceptions in Science Instrument constructed by Schoon and Boone (1998), Science Teaching Efficacy Belief Instrument (STEBI-B) constructed by Enochs and Riggs (1990), a participant information form, and through utilization of interviews. The results from the alternative conception instrument indicated that the majority of preservice elementary teachers held a number of alternative conceptions with most being in the physical sciences followed by earth/space, and then life science. Various sources of alternative conceptions emerged during the interview sessions. Participants mainly cited science teachers, science textbooks, and previous science experiences as sources of their alternative conceptions. On the other hand, the analysis of the self-efficacy instrument and follow-up interviews revealed generally positive self-efficacy beliefs. Findings from the study also confirmed that science courses completed in high school and college do not seem to have influenced participants' number and types of alternative conceptions regarding earth/space science, life science, and physical science and self-efficacy beliefs about science teaching. The results also indicate that participants with the lowest number of

  10. Resources and approaches for teaching physics to pre-health and life science majors

    NASA Astrophysics Data System (ADS)

    Widenhorn, Ralf

    2014-03-01

    As science is advancing, the skill set for a physician or medical researcher today and in the future is very different than it has been in the past. As an example, the American Association of Medical Colleges revised the Medical College Admissions Test (MCAT) to reflect this dynamic environment. Because of these changes, the needs of students entering into these professions are often not met by a traditional physics course. Developing curriculum for an introductory physics course that helps to prepare life science and pre-health students can be challenging for many physics instructors who lack a strong foundation in biology or medicine. This presentation will address various approaches that physics instructors without a background in life sciences can use to successfully teach an introductory physics course for life science and pre-heath students. For these courses, an online resource may be a useful tool. Online resources already exist today, but their utility relies on active engagement and sharing of teaching material by physics instructors possessing a background in both physics and the life sciences. This talk will address ways for the biomedical physics community to contribute to this effort.

  11. Teaching Citizenship in Science Classes at the University of Arizona

    NASA Astrophysics Data System (ADS)

    Thompson, R. M.; Mangin, K.

    2008-12-01

    Science classes for non-science majors present unique opportunities to create lifelong science aficionados and teach citizenship skills. Because no specific content is needed for future courses, subject matter can be selected to maximize interest and assignments can be focused on life skills such as science literacy instead of discipline-specific content mastery. Dinosaurs! is a very successful non-major science class with a minimum enrollment of 150 that is intended for sophomores. One of the goals of this class is to increase students' awareness of social issues, the political process, and opportunities for keeping up with science later in life. The main theme of this class is evolution. The bird-dinosaur link is the perfect vehicle for illustrating the process of science because the lines of evidence are many, convincing, and based on discoveries made throughout the last half-century and continuing to the present day. The course is also about evolution the social issue. The second writing assignment is an in-class affective writing based on a newspaper article about the Dover, PA court case. The primary purpose of this assignment is to create a comfort zone for those students with strong ideological biases against evolution by allowing them to express their views without being judged, and to instill tolerance and understanding in students at the other end of the spectrum. Another homework uses thomas.loc.gov, the government's public website providing information about all legislation introduced since the 93rd Congress and much more. The assignment highlights the difficulty of passing legislation and the factors that contribute to a given bill's legislative success or failure using the Paleontological Resources Preservation Act, S320. Details of these assignments and others designed to achieve the goals stated above will be presented. A very different undergraduate program, Marine Discovery, offers science majors the opportunity to earn upper division science

  12. Preservice elementary teachers' personal science teaching efficacy and science teaching outcome expectancies: The influence of student teaching

    NASA Astrophysics Data System (ADS)

    Plourde, Lee Alton

    This study was unique in garnering an early view at how the deterioration of science teacher education begins. This investigation examined the impact of the student teaching semester on preservice elementary teachers' personal efficacy beliefs and outcome expectancy beliefs in science teaching. Participants in the study included the student teachers of three separate cohort groups commencing and completing their student teaching semester at the same time. Qualitative data were gathered from interviews and observations from selected individuals of these cohort groups. Quantitative and qualitative research methods were employed in the study. Utilizing a pretest and posttest one group research design, quantitative data were obtained from the administration of a psychometric test, Science Teaching Efficacy Belief Instrument for preservice teachers (STEBI-B). The pretest was administered at the beginning of the student teaching semester, before the student teachers began their "soloing" teaching, and the posttest was administered at the completion of the student teaching semester and "soloing" period. Qualitative data were derived from interviews and observations which were audio recorded and transcribed. The results of this study revealed that the student teaching semester did not have a statistically significant impact on the subjects' sense of personal self-efficacy, but the influence was statistically significant in regards to the student teachers' beliefs about children's ability to learn science. Data gathered through interviews and observations suggested that beliefs appear to originate from one or more of the following: a lack of practical work, personal involvement, and hands-on manipulation in science related activities in elementary, secondary, and tertiary education; a dependence of science courses on textbooks and lectures; the dispassionate association with science teachers/instructors; a focus on formalized tests with no performance assessments; the

  13. A Graduate Teaching Assistant Workshop in a Faculty of Science

    ERIC Educational Resources Information Center

    Harris, Dik; McEwen, Laura April

    2009-01-01

    This article describes the design and implementation of a workshop on teaching and learning for graduate teaching assistants (GTAs) in a Faculty of Science at a major Canadian research-intensive university. The approach borrows heavily from an existing successful workshop for faculty but is tailored specifically to the needs of GTAs in science in…

  14. Using the tools of science to teach science

    NASA Astrophysics Data System (ADS)

    Wieman, C.

    2005-12-01

    Much of the rapid progress of modern science comes from its solid foundation on objective quantitative data, the rapid widespread dissemination and duplication of ideas, results, and successful approaches, and the rapid utilization of technological developments to achieve new capabilities. Unfortunately, scientists usually abandon these powerful tools in their approach to the teaching of science and instead rely on an approach that would be considered little more than individual superstition if used in the context of actual science. Choices of content and presentation in teaching are usually based on tradition or totally subjective judgments of the instructor. I will discuss my efforts to approach teaching physics much as I have done experimental physics. This includes: collecting and utilizing data (both my own and that from the research of others), developing a strategy for dealing with numerous degrees of freedom that one cannot control nearly as well as one would like (whether they are atomic interactions or student attitudes), optimizing the use of the time and money available, and taking advantage of useful new technology. The latter discussion will include some specifics on using technology that allows real time measurement of student learning and engagement in a large class and the development and use of interactive simulations to facilitate conceptual understanding. Achieving true understanding and appreciation of physics by introductory students is a major challenge. Fortunately, there is sufficient room for improvement in the current educational system that one can fall far short of that ideal and still be making major progress. Work supported by NSF and the Kavli Operating Institute

  15. Essays in the Non-Science Major Astrobiology Course

    NASA Astrophysics Data System (ADS)

    D'Cruz, Noella L.

    2014-06-01

    The non-science major "Life in the Universe" class offers students many opportunities to explore topics such as whether or not to send manned missions to Mars, which jovian moon is a suitable candidate for harboring life, etc. Some of these topics are suited to being offered as projects. At Joliet Junior College, Joliet, IL, we offer this general education class every semester to around 40 students. We expect our students to complete three short essays in a semester, instead of doing one or two large projects. The essays enable students to be engaged more deeply with some aspects of the course than is usually possible in the classroom. Some of our essay topics are based on suggestions in the textbook, others have been developed by us. In this poster, we will report on the essay topics and the attitudes of our Fall 2013 and Spring 2014 students to such essays.

  16. A Sustainable Energy Laboratory Course for Non-Science Majors

    NASA Astrophysics Data System (ADS)

    Nathan, Stephen A.; Loxsom, Fred

    2016-10-01

    Sustainable energy is growing in importance as the public becomes more aware of climate change and the need to satisfy our society's energy demands while minimizing environmental impacts. To further this awareness and to better prepare a workforce for "green careers," we developed a sustainable energy laboratory course that is suitable for high school and undergraduate students, especially non-science majors. Thirteen hands-on exercises provide an overview of sustainable energy by demonstrating the basic principles of wind power, photovoltaics, electric cars, lighting, heating/cooling, insulation, electric circuits, and solar collectors. The order of content presentation and instructional level (secondary education or college) can easily be modified to suit instructor needs and/or academic programs (e.g., engineering, physics, renewable and/or sustainable energy).

  17. Teaching the process of science: faculty perceptions and an effective methodology.

    PubMed

    Coil, David; Wenderoth, Mary Pat; Cunningham, Matthew; Dirks, Clarissa

    2010-01-01

    Most scientific endeavors require science process skills such as data interpretation, problem solving, experimental design, scientific writing, oral communication, collaborative work, and critical analysis of primary literature. These are the fundamental skills upon which the conceptual framework of scientific expertise is built. Unfortunately, most college science departments lack a formalized curriculum for teaching undergraduates science process skills. However, evidence strongly suggests that explicitly teaching undergraduates skills early in their education may enhance their understanding of science content. Our research reveals that faculty overwhelming support teaching undergraduates science process skills but typically do not spend enough time teaching skills due to the perceived need to cover content. To encourage faculty to address this issue, we provide our pedagogical philosophies, methods, and materials for teaching science process skills to freshman pursuing life science majors. We build upon previous work, showing student learning gains in both reading primary literature and scientific writing, and share student perspectives about a course where teaching the process of science, not content, was the focus. We recommend a wider implementation of courses that teach undergraduates science process skills early in their studies with the goals of improving student success and retention in the sciences and enhancing general science literacy.

  18. Teaching the Process of Science: Faculty Perceptions and an Effective Methodology

    PubMed Central

    Coil, David; Wenderoth, Mary Pat; Cunningham, Matthew

    2010-01-01

    Most scientific endeavors require science process skills such as data interpretation, problem solving, experimental design, scientific writing, oral communication, collaborative work, and critical analysis of primary literature. These are the fundamental skills upon which the conceptual framework of scientific expertise is built. Unfortunately, most college science departments lack a formalized curriculum for teaching undergraduates science process skills. However, evidence strongly suggests that explicitly teaching undergraduates skills early in their education may enhance their understanding of science content. Our research reveals that faculty overwhelming support teaching undergraduates science process skills but typically do not spend enough time teaching skills due to the perceived need to cover content. To encourage faculty to address this issue, we provide our pedagogical philosophies, methods, and materials for teaching science process skills to freshman pursuing life science majors. We build upon previous work, showing student learning gains in both reading primary literature and scientific writing, and share student perspectives about a course where teaching the process of science, not content, was the focus. We recommend a wider implementation of courses that teach undergraduates science process skills early in their studies with the goals of improving student success and retention in the sciences and enhancing general science literacy. PMID:21123699

  19. Transformative Undergraduate Science Courses for Non-Majors at a Historically Black Institution and at a Primarily White Institution

    ERIC Educational Resources Information Center

    Marbach-Ad, Gili; McGinnis, J. Randy; Pease, Rebecca; Dai, Amy; Benson, Spencer; Dantley, Scott Jackson

    2010-01-01

    We investigated curricular and pedagogical innovations in undergraduate science courses for non-science majors at a Historically Black Institution (HBI) and a Primarily White Institution (PWI). The aims were to improve students' understanding of science, increase their enthusiasm towards science by connecting their prior experience and interest to…

  20. Jordanian Preservice Primary Teachers' Perceptions of Mentoring in Science Teaching

    NASA Astrophysics Data System (ADS)

    Abed, Osama H.; Abd-El-Khalick, Fouad

    2015-03-01

    Quality mentoring is fundamental to preservice teacher education because of its potential to help student and novice teachers develop the academic and pedagogical knowledge and skills germane to successful induction into the profession. This study focused on Jordanian preservice primary teachers' perceptions of their mentoring experiences as these pertain to science teaching. The Mentoring for Effective Primary Science Teaching instrument was administered to 147 senior preservice primary teachers in a university in Jordan. The results indicated that the greater majority of participants did not experience effective mentoring toward creating a supportive and reflexive environment that would bolster their confidence in teaching science; further their understanding of primary science curriculum, and associated aims and school policies; help with developing their pedagogical knowledge; and/or furnish them with specific and targeted feedback and guidance to help improve their science teaching. Substantially more participants indicated that their mentors modeled what they perceived to be effective science teaching. The study argues for the need for science-specific mentoring for preservice primary teachers, and suggests a possible pathway for achieving such a model starting with those in-service primary teachers-much like those identified by participants in the present study-who are already effective in their science teaching.

  1. The effects of a summer science camp teaching experience on preservice elementary teachers' science teaching efficacy, science content knowledge, and understanding of the nature of science

    NASA Astrophysics Data System (ADS)

    Logerwell, Mollianne G.

    The purpose of this study was to investigate the impact of a summer science camp teaching experience on preservice elementary teachers' science teaching efficacy, science content knowledge, and understanding of the nature of science. Master's degree students enrolled in the elementary Fairfax Partnership Schools (FPS, n = 21) cohort served as the treatment group, while those enrolled in the Loudoun Partnership Schools (LPS, n = 15) and Professional Development Schools (PDS, n = 24) cohorts at George Mason University served as the control groups. The treatment group planned for and taught a two-week inquiry- and problem-based summer science camp as part of their science methods course, while the control groups did not. The Science Teaching Efficacy Belief Instrument (STEBI), a science content assessment, a personal data questionnaire, and a modified version of the Views of Nature of Science Questionnaire (VNOS-C) were administered to the participants at the beginning and end of their science methods course. Analyses revealed significant increases for the FPS group in general science teaching efficacy, personal science teaching efficacy, science teaching outcome expectancy, general science knowledge, biology content knowledge, chemistry content knowledge, and understanding of NOS; the LPS group in general science teaching efficacy, personal science teaching efficacy, chemistry content knowledge, and understanding of NOS; and, the PDS group in general science teaching efficacy, personal science teaching efficacy, and chemistry content knowledge. Additionally, the FPS group had significantly higher general science teaching efficacy than both control groups, personal science teaching efficacy than the PDS group, and understanding of NOS than the LPS group. Overall, the findings indicate that course length is not as important for developing preservice teachers' teaching efficacy and understanding of content as having connected, authentic field-based teaching experiences

  2. Teaching Ethics in Science.

    ERIC Educational Resources Information Center

    Reiss, Michael

    1999-01-01

    Summarizes arguments for and against teaching ethics within science education, and clarifies what might be the several aims of teaching ethics in science. Discusses how ethics instruction might be incorporated into the science curriculum. (Contains 120 references.) (WRM)

  3. Interdisciplinary Project Experiences: Collaboration between Majors and Non-Majors

    ERIC Educational Resources Information Center

    Smarkusky, Debra L.; Toman, Sharon A.

    2014-01-01

    Students in computer science and information technology should be engaged in solving real-world problems received from government and industry as well as those that expose them to various areas of application. In this paper, we discuss interdisciplinary project experiences between majors and non-majors that offered a creative and innovative…

  4. Teaching Writing in the Social Sciences: A Comparison and Critique of Three Models

    ERIC Educational Resources Information Center

    Hansen, Kristine; Adams, Joyce

    2010-01-01

    This article describes and evaluates three approaches to teaching writing in the social sciences, particularly psychology: an English department-based course for all social science majors; a team-teaching model that embeds writing in core courses in psychology; and a stand-alone course dedicated to teaching writing in psychology, often taken…

  5. Minority Preservice Teachers' Conceptions of Teaching Science: Sources of Science Teaching Strategies

    ERIC Educational Resources Information Center

    Subramaniam, Karthigeyan

    2013-01-01

    This study explores five minority preservice teachers' conceptions of teaching science and identifies the sources of their strategies for helping students learn science. Perspectives from the literature on conceptions of teaching science and on the role constructs used to describe and distinguish minority preservice teachers from their mainstream…

  6. School Innovation in Science: Improving Science Teaching and Learning in Australian Schools

    ERIC Educational Resources Information Center

    Tytler, Russell

    2009-01-01

    School Innovation in Science is a major Victorian Government initiative that developed and validated a model whereby schools can improve their science teaching and learning. The initiative was developed and rolled out to more than 400 schools over the period 2000-2004. A research team worked with 200+ primary and secondary schools over three…

  7. Earth Systems Science in an Integrated Science Content and Methods Course for Elementary Education Majors

    NASA Astrophysics Data System (ADS)

    Madsen, J. A.; Allen, D. E.; Donham, R. S.; Fifield, S. J.; Shipman, H. L.; Ford, D. J.; Dagher, Z. R.

    2004-12-01

    With funding from the National Science Foundation, we have designed an integrated science content and methods course for sophomore-level elementary teacher education (ETE) majors. This course, the Science Semester, is a 15-credit sequence that consists of three science content courses (Earth, Life, and Physical Science) and a science teaching methods course. The goal of this integrated science and education methods curriculum is to foster holistic understandings of science and pedagogy that future elementary teachers need to effectively use inquiry-based approaches in teaching science in their classrooms. During the Science Semester, traditional subject matter boundaries are crossed to stress shared themes that teachers must understand to teach standards-based elementary science. Exemplary approaches that support both learning science and learning how to teach science are used. In the science courses, students work collaboratively on multidisciplinary problem-based learning (PBL) activities that place science concepts in authentic contexts and build learning skills. In the methods course, students critically explore the theory and practice of elementary science teaching, drawing on their shared experiences of inquiry learning in the science courses. An earth system science approach is ideally adapted for the integrated, inquiry-based learning that takes place during the Science Semester. The PBL investigations that are the hallmark of the Science Semester provide the backdrop through which fundamental earth system interactions can be studied. For example in the PBL investigation that focuses on energy, the carbon cycle is examined as it relates to fossil fuels. In another PBL investigation centered on kids, cancer, and the environment, the hydrologic cycle with emphasis on surface runoff and ground water contamination is studied. In a PBL investigation that has students learning about the Delaware Bay ecosystem through the story of the horseshoe crab and the biome

  8. Teaching Children Science. Second Edition.

    ERIC Educational Resources Information Center

    Abruscato, Joseph

    This book focuses on science teaching at the elementary school level. It includes chapters dealing with various science content areas and teaching processes including: (1) what is science; (2) why teach science; (3) process skills as a foundation for unit and lesson planning; (4) how to plan learning units, daily lessons, and assessment…

  9. Science-Technology-Society literacy in college non-majors biology: Comparing problem/case studies based learning and traditional expository methods of instruction

    NASA Astrophysics Data System (ADS)

    Peters, John S.

    This study used a multiple response model (MRM) on selected items from the Views on Science-Technology-Society (VOSTS) survey to examine science-technology-society (STS) literacy among college non-science majors' taught using Problem/Case Studies Based Learning (PBL/CSBL) and traditional expository methods of instruction. An initial pilot investigation of 15 VOSTS items produced a valid and reliable scoring model which can be used to quantitatively assess student literacy on a variety of STS topics deemed important for informed civic engagement in science related social and environmental issues. The new scoring model allows for the use of parametric inferential statistics to test hypotheses about factors influencing STS literacy. The follow-up cross-institutional study comparing teaching methods employed Hierarchical Linear Modeling (HLM) to model the efficiency and equitability of instructional methods on STS literacy. A cluster analysis was also used to compare pre and post course patterns of student views on the set of positions expressed within VOSTS items. HLM analysis revealed significantly higher instructional efficiency in the PBL/CSBL study group for 4 of the 35 STS attitude indices (characterization of media vs. school science; tentativeness of scientific models; cultural influences on scientific research), and more equitable effects of traditional instruction on one attitude index (interdependence of science and technology). Cluster analysis revealed generally stable patterns of pre to post course views across study groups, but also revealed possible teaching method effects on the relationship between the views expressed within VOSTS items with respect to (1) interdependency of science and technology; (2) anti-technology; (3) socioscientific decision-making; (4) scientific/technological solutions to environmental problems; (5) usefulness of school vs. media characterizations of science; (6) social constructivist vs. objectivist views of theories; (7

  10. Confronting Barriers to Teaching Elementary Science: After-School Science Teaching Experiences for Preservice Teachers

    ERIC Educational Resources Information Center

    Cartwright, Tina; Smith, Suzanne; Hallar, Brittan

    2014-01-01

    This qualitative study examines the transition of eight elementary preservice teachers into student teaching after participating in a science methods course that included a significant amount of teaching after-school science to elementary grade students. These eight participants had a chance to practice teaching inquiry-based science and to reform…

  11. Teaching the Teachers: Physical Science for the Non-Scientific

    NASA Astrophysics Data System (ADS)

    Michels, D. J.; Pickert, S. M.; Montrose, C. J.; Thompson, J. L.

    2004-12-01

    The Catholic University of America, in collaboration with the Solar Physics Branch of the Naval Research Laboratory and the Goddard Space Flight Center, has begun development of an experimental, inquiry-driven and standards-referenced physical science course for undergraduate, pre-service K-8 teachers. The course is team-taught by faculty from the University's Departments of Education and Physics and NRL solar physics research personnel. Basic physical science concepts are taught in the context of the Sun and Sun-Earth Connections, through direct observation, web-based solar data, and images and movies from ongoing space missions. The Sun can illuminate, in ways that cannot be duplicated with comparable clarity in the laboratory, the basics of magnetic and gravitational force fields, Newton's Laws, and light and optics. The immediacy of the connection to ongoing space research and live mission data serves as well to inspire student interest and curiosity. Teaching objectives include pedagogical methods, especially hands-on and observational experiences appropriate to the physics content and the K-8 classroom. The CUA Program, called TOPS! (Top Teachers of Physical Science!) has completed its first year of classroom experience; the first few batches of Program graduates should be in K-8 classrooms in time to capitalize on the motivational opportunities offered by the 2007-2008 IHY and IPY. We present data on the attitudinal and scientific progress of fifteen pre-service Early Childhood and Elementary Education majors as they experienced, many for the first time, the marvels of attractive and repulsive forces, live observations of solar system dynamics, access to real-time satellite data and NASA educational resources.

  12. Impact on Scientific Inquiry of a Backwards-Faded Scaffolding Approach to Inquiry-based Space Science for Non-Science Majoring Undergraduates

    NASA Astrophysics Data System (ADS)

    Lyons, D. J.; Slater, S. J.; Slater, T. F.

    2011-12-01

    Exploring the impact of a novel inquiry-based earth and space science laboratory curriculum designed using the Backwards Faded Scaffolding inquiry teaching framework on non-science majoring undergraduate students' views of the nature of scientific inquiry (NOSI), this study focused on two aspects of NOSI: The Distinction between Data and Evidence (DvE), and The Multiple Methods of Science (MMS). In the first stage, student participant views of NOSI were measured using the VOSI-4 research instrument before and after the intervention. In the second stage, the quantitative results were used to strategically design a qualitative investigation, in which the four lab instructors were interviewed about their observations of how the student participants interacted with the intervention curriculum as compared to traditional lab activities, as well as their suggestions as to how the curriculum may or may not have contributed to the results of the first stage. These interviews were summarized and analyzed for common themes as to how the intervention curriculum influenced the students' understandings of the two aspect of NOSI. According to the results of a Wilcoxon Signed Rank test, there was a significant shift in the distributions of both samples toward a more informed understanding of DvE after the intervention curriculum was administered, while there was no significant change in either direction for understanding of MMS. The results of the instructor interview analysis suggested that the intervention curriculum provided multiple opportunities for students to evaluate and determine the relevance of data in the context of producing evidence-based conclusions directly related to specific research questions, thereby supporting the development of more informed views of DvE.

  13. Assessment of an Internet-Delivered Interactive Approach to Introductory Astronomy for Non-Science Majors

    ERIC Educational Resources Information Center

    Slater, Timothy F.; Jones, Lauren V.

    2004-01-01

    This project explores the effectiveness of learner-centered education (LCE) principles and practices on student learning and attitudes in an online interactive introductory astronomy course for non-science majors by comparing a high-quality Internet-delivered course with a high-quality on-campus course, both of which are based on the principles of…

  14. Teacher beliefs about teaching science through Science-Technology-Society (STS)

    NASA Astrophysics Data System (ADS)

    Massenzio, Lynn

    2001-07-01

    Statement of the problem. As future citizens, students will have the enormous responsibility of making decisions that will require an understanding of the interaction of science and technology and its interface with society. Since many societal issues today are grounded in science and technology, learning science in its social context is vital to science education reform. Science-Technology-Society (STS) has been strongly identified with meeting this goal, but despite its benefits, putting theory into practice has been difficult. Research design and methodology. The purpose of this study was to explore teacher beliefs about teaching science through STS. The following broad research questions guided the study: (1) What are the participants' initial beliefs about teaching science through STS? (2) What beliefs emerge as participants reflect upon and share their STS instructional experiences with their peers? A social constructivist theoretical framework was developed to plan interactions and collect data. Within this framework, a qualitative methodology was used to interpret the data and answer the research questions. Three provisionally certified science teachers engaged in a series of qualitative tasks including a written essay, verbal STS unit explanation, reflective journal writings, and focus group interviews. After implementing their STS unit, the participants engaged in meaningful dialogue with their peers as they reflected upon, shared, and constructed their beliefs. Conclusions. The participants strongly believed in STS as a means for achieving scientific and technological literacy, developing cognition, enhancing scientific habits of mind and affective qualities, and fostering citizen responsibility. Four major assertions were drawn: (a) Participants' initial belief in teaching for citizen responsibility did not fully align with practice, (b) Educators at the administrative level should be made aware of the benefits of teaching science through STS, (c

  15. Science Teaching: What Does It Mean?

    ERIC Educational Resources Information Center

    Tseitlin, Michael; Galili, Igal

    2006-01-01

    This study considers the relationship between science, science teaching and the philosophy of science perceiving these three cultural phenomena as a semantic triad. This approach presents science teaching as being a form of a scientific reflection. The relationship of science teaching to the philosophy of science is advocated to be essential,…

  16. Developing New Pedagogy to Teach Planet Formation to Undergraduate Non-Science Majors

    NASA Astrophysics Data System (ADS)

    Simon, Molly; Impey, Chris David; Buxner, Sanlyn

    2016-06-01

    A first order understanding of planet formation and the scientific concepts therein is critical in order for undergraduate students to understand our place in the Universe. Furthermore, planet formation integrates the topics of gravity, angular momentum, migration, and condensation in a “story-book” fashion where students can apply these concepts to a specific event. We collected syllabi and course topics from over 30 undergraduate general-education astrobiology courses from around the globe in order to determine the extent to which professors address planet formation. Additionally, we were looking to see if faculty had developed specific or original pedagogy to teach this topic. We find on average, instructors spend ½ of a lecture discussing planet formation or they leave it out all together. In the classes where planet formation is taught more extensively, instructors use PowerPoint slides or occasional videos to teach the topic. We aim to develop new pedagogy that will allow us to better determine learning gains and student understanding of this critical topic. If students in an astrobiology class are unable to understand how our own Solar System forms, it is significantly more challenging to make parallels (or find differences) between our home in the Universe and extrasolar planetary systems.

  17. Core Skills for Effective Science Communication: A Teaching Resource for Undergraduate Science Education

    ERIC Educational Resources Information Center

    Mercer-Mapstone, Lucy; Kuchel, Louise

    2017-01-01

    Science communication is a diverse and transdisciplinary field and is taught most effectively when the skills involved are tailored to specific educational contexts. Few academic resources exist to guide the teaching of communication with non-scientific audiences for an undergraduate science context. This mixed methods study aimed to explore what…

  18. Teaching Media Studies as High School Social Science.

    ERIC Educational Resources Information Center

    Tuggle, C. A.; Sneed, Don; Wulfemeyer, K. Tim

    2000-01-01

    Finds that a large majority of high school social science teachers in two of the nation's largest school districts believe that: students should be taught how to be informed media consumers; the social science curriculum is the appropriate place for that instruction; and while they feel qualified to teach about the media, they have received little…

  19. At the Crossroads of Art and Science: A New Course for University Non-Science Majors

    NASA Astrophysics Data System (ADS)

    Blatt, S. Leslie

    2004-03-01

    How much did Seurat know about the physics, physiology, and perceptual science of color mixing when he began his experiments in pointillism? Did Vermeer have a camera obscura built into his studio to create the perfect perspective and luminous effects of his canvases? Early in the 20th century, consequences of the idea that "no single reference point is to be preferred above any other" were worked out in physics by Einstein (special and general relativity), in art by Picasso (early cubism), and in music by Schoenberg (12-tone compositions); did this same paradigm-shifting concept arise, in three disparate fields, merely by coincidence? We are developing a new course, aimed primarily at non-science majors, that addresses questions like these through a combination of hands-on experiments on the physics of light, investigations in visual perception, empirical tests of various drawing and painting techniques, and field trips to nearby museums. We will show a few examples of the kinds of art/science intersections our students will be exploring, and present a working outline for the course.

  20. Using the Illogic of Creationism to Teach the Logic of Science.

    ERIC Educational Resources Information Center

    Wells, Neil Andrew

    1989-01-01

    Presented is a strategy which uses creationism and other pseudosciences as examples of non-scientific approaches to critical thinking to teach students the nature of science and the scientific method. Examples of the illogic of non-scientific approaches are given along with an explanation of how they can be used in teaching critical thinking to…

  1. Physics Myth Busting: A Lab-Centered Course for Non-Science Students

    ERIC Educational Resources Information Center

    Madsen, Martin John

    2011-01-01

    There is ongoing interest in how and what we teach in physics courses for non-science students, so-called "physics for poets" courses. Art Hobson has effectively argued that teaching science literacy should be a key ingredient in these courses. Hobson uses Jon Millers definition of science literacy, which has two components: first, "a basic…

  2. Challenging the Non-Science Majors with Inquiry-based Laboratory Environmental Geoscience Courses

    NASA Astrophysics Data System (ADS)

    Humphreys, R. R.; Hall, C.; Colgan, M. W.

    2009-12-01

    Although there is proven rationale for teaching inquiry-based/problem-based lessons in the undergraduate classroom, very few non-major geoscience course implement these instructional strategies in their laboratory sections. The College of Charleston Department of Geology and Environmental Geosciences has developed an introductory Environmental Geology Laboratory course for undergraduate non-majors, which corrects this traditional methodology. The Environmental Geology lab activities employ an inquiry-based approach, in which the students take control of their own learning; a cooperative learning approach, in which each member of a team is responsible not only for learning what is taught but also for helping their peers learn; and a problem/case study-based learning approach, in which activities are abstracted from a real-life scenario. In these lab sessions, students actively engage in mastering course content and develop essential skills while exploring real-world scenarios through case studies. For example, during the two-week section on Earthquakes, teams of students study the effects of seismic motion on various types of sediments found underlying the Charleston, South Carolina region. Students discover areas where the greatest damage occurred during the 1886 7.4 MM earthquake through a walking tour of downtown Charleston. Extracting information from historical and topographic maps, as well as aerial and satellite imagery provides students with the necessary information to produce an earthquake hazard-zone map of the Charleston Peninsula. These types of exercises and laboratory activities allow the students to utilize scientific reasoning and application of scientific concepts to develop solutions to environmental scenarios, such as volcanic eruptions, coastal, flooding, or landslide hazards, and groundwater contamination. The newly implemented labs began in Fall of 2008 and have been undergoing adaptations throughout the Spring and Fall of 2009. Qualitative

  3. A pragmatic conception of science: Implications for science teaching

    NASA Astrophysics Data System (ADS)

    Sessoms, Deidre Bates

    In this dissertation, I examine various philosophical conceptions of the nature of science---its goals, methods and products---and link those views to how science is taught. While the review begins in the 1600s, the focus is primarily on logical positivism. The logical positivist view of science prevailed for much of the twentieth century and has greatly influenced how science is taught. The review section culminates with current conceptions of science from the fields of philosophy, sociology, feminist studies and radical studies of science. These various conceptions of the nature of science are linked to how science is currently taught, at the K--12 level and at the university. In particular, the logical positivist conception has influenced the teaching of science by emphasizing the products of science (factual knowledge and theories) over the processes of science (the social methods of knowledge production). As a result of viewing science as the logical positivists did, teachers primarily focus on science as unchanging factual knowledge, at the expense of examining the social and cultural aspects of scientific practices. I develop a pragmatic conception of the method of science as reflective thinking that we effectively use in our everyday lives. Linking that conception with the aims that John Dewey outlined for schools in a democratic society points the way towards certain goals and methods for teaching science. Therefore, I explore the type of science teaching that might result when viewing science as a pragmatic activity conducted in a democracy. Teaching of this sort would involve students in working together on shared problems that arise in the context of daily life. For science students at the university, this would include participating in and critiquing scientific research in active research laboratories. Implementing this view of science teaching might result in modifications in the practices and goals of science. Lastly, the experiences of a group of

  4. Competencies in Science Teaching

    ERIC Educational Resources Information Center

    Mathelitsch, Leopold

    2013-01-01

    The role of competencies is discussed with respect to science teaching. In particular, competence models from Germany, Switzerland and Austria are presented and compared. A special topical program, "Competencies in Mathematics and Science Teaching", was started in Austria three years ago. Initial experiences with this program are…

  5. Using Literacy Techniques to Teach Astronomy to Non-Science Majors

    NASA Astrophysics Data System (ADS)

    Garland, C. A.; Ratay, D. L.

    We discuss an introductory-level college astronomy class that significantly relied on reading and writing assignments to deliver basic content knowledge and provide a basis for deeper analysis of the material. As opposed to the traditional problem-set method of homework, students were required to read popular articles from magazines and newspapers related to the content presented in class, and then prepare responses. These responses ranged from methodological analyzes to using the readings to create original science journalism. Additional forms of assessment indicated that students benefited from this type of course design. We propose that given the background of students in this type of course, our course design is better suited to engage students in the material and provides a valid alternative method of assessment.

  6. The transformation of science and mathematics content knowledge into teaching content by university faculty

    NASA Astrophysics Data System (ADS)

    Flynn, Natalie P.

    knowledge from an expert centered perspective to a student centric view. Follow-up interviews of twenty faculty yielded a wide variety of insights into the complicated method of deconstructing expert science and mathematics content. The interviews revealed a major disconnect between education research and researchers and the science and mathematics content experts who teach. There is a pervasive disregard for science and mathematics education and training. Faculty members find little to no support for teaching. Though 81% obtained their Ph.D. with the intent to enter an academic setting, pedagogical training was non-existent or limited, both prior to and after obtaining faculty positions. Experience alone did not account for confidence or ability to successfully teach. Faculty that were able to 'think like a student' and view their material from a student's perspective' seemed to be the most confident and flexible in their teaching methods. Grading and having an open and interactive teaching style, being on the 'side of the students' also seemed to allow faculty to connect more deeply with the students and learn about common misconceptions and difficulties. Though most faculty claimed to not teach as they were taught and not recall having specific content difficulties, this essential interaction with many students facilitated a shift in thinking about their content. This shift allowed for a reversal from teacher centered classrooms to student centered. Multiple issues arise when teaching at a traditional larger lecture style found in the majority of universities science and mathematics courses that constrain and provide unique teaching challenges. Many faculty have developed unique tools to incorporate successful teaching strategies, such as daily pre-quizzes and smart-phone questioning as well as small group work, computer posted guides, strategic class breaks, and limiting lecture style in favor of a more active engaged classroom. (Abstract shortened by UMI.).

  7. Transforming Undergraduate Science Teaching: Social Constructivist Perspectives. Counterpoints: Studies in the Postmodern Theory of Education.

    ERIC Educational Resources Information Center

    Taylor, Peter C., Ed.; Gilmer, Penny J., Ed.; Tobin, Kenneth, Ed.

    This book comes at a time when epistemological reform is sweeping through the global community of science education. Since the 1970s, the theories of knowing embodied in the teaching activities of school science teachers have been undergoing a major transformation toward more learner-sensitive standpoints. Undergraduate science teaching however,…

  8. Many Paths toward Discovery: A Module for Teaching How Science Works

    ERIC Educational Resources Information Center

    Price, Rebecca M.; Perez, Kathryn E.

    2018-01-01

    Improving students' understanding of how science works requires explicit instruction. Here, we test the efficacy of a module based on two previously published activities (the "Cube Puzzle" and the case study "Asteroids and Dinosaurs") that teach how science works to college science majors. Students also use the How Science…

  9. Science-for-Teaching Discourse in Science Teachers' Professional Learning Communities

    NASA Astrophysics Data System (ADS)

    Lohwasser, Karin

    Professional learning communities (PLCs) provide an increasingly common structure for teachers' professional development. The effectiveness of PLCs depends on the content and quality of the participants' discourse. This dissertation was conducted to add to an understanding of the science content needed to prepare to teach science, and the discourse characteristics that create learning opportunities in teachers' PLCs. To this end, this study examined how middle school science teachers in three PLCs addressed science-for-teaching, and to what effect. Insight into discourse about content knowledge for teaching in PLCs has implications for the analysis, interpretation, and support of teachers' professional discourse, their collaborative learning, and consequently their improvement of practice. This dissertation looked closely at the hybrid space between teachers' knowledge of students, of teaching, and of science, and how this space was explored in the discourse among teachers, and between teachers and science experts. At the center of the study were observations of three 2-day PLC cycles in which participants worked together to improve the way they taught their curriculum. Two of the PLC cycles were supported, in part, by a science expert who helped the teachers explore the science they needed for teaching. The third PLC worked without such support. The following overarching questions were explored in the three articles of this dissertation: (1) What kind of science knowledge did teachers discuss in preparation for teaching? (2) How did the teachers talk about content knowledge for science teaching, and to what effect for their teaching practice? (3) How did collaborating teachers' discursive accountabilities provide opportunities for furthering the teachers' content knowledge for science teaching? The teachers' discourse during the 2-day collaboration cycles was analyzed and interpreted based on a sociocultural framework that included concepts from the practice

  10. Perspectives on learning, learning to teach and teaching elementary science

    NASA Astrophysics Data System (ADS)

    Avraamidou, Lucy

    The framework that characterizes this work is that of elementary teachers' learning and development. Specifically, the ways in which prospective and beginning teachers' develop pedagogical content knowledge for teaching science in light of current recommendations for reform emphasizing teaching and learning science as inquiry are explored. Within this theme, the focus is on three core areas: (a) the use of technology tools (i.e., web-based portfolios) in support of learning to teach science at the elementary level; (b) beginning teachers' specialized knowledge for giving priority to evidence in science teaching; and (c) the applications of perspectives associated with elementary teachers' learning to teach science in Cyprus, where I was born and raised. The first manuscript describes a study aimed at exploring the influence of web-based portfolios and a specific task in support of learning to teach science within the context of a Professional Development School program. The task required prospective teachers to articulate their personal philosophies about teaching and learning science in the form of claims, evidence and justifications in a web-based forum. The findings of this qualitative case study revealed the participants' developing understandings about learning and teaching science, which included emphasizing a student-centered approach, connecting physical engagement of children with conceptual aspects of learning, becoming attentive to what teachers can do to support children's learning, and focusing on teaching science as inquiry. The way the task was organized and the fact that the web-based forum provided the ability to keep multiple versions of their philosophies gave prospective teachers the advantage of examining how their philosophies were changing over time, which supported a continuous engagement in metacognition, self-reflection and self-evaluation. The purpose of the study reported in the second manuscript was to examine the nature of a first

  11. Meanings teachers make of teaching science outdoors as they explore citizen science

    NASA Astrophysics Data System (ADS)

    Benavides, Aerin Benavides

    This descriptive case study examined the meanings public elementary school teachers (N = 13) made of learning to enact citizen science projects in their schoolyards in partnership with a local Arboretum. Utilizing Engestrom's (2001) framework of cultural-historical activity theory (CHAT), the Arboretum's outreach program for area Title 1 schools was viewed as an activity system composed of and acting in partnership with the teachers. The major finding was that teachers designed and mastered new ways of teaching (expansive learning) and transformed their citizen science activity to facilitate student engagement and learning. I highlight four important themes in teachers' expansive learning: (a) discussion, (b) inclusion, (c) integration, and (d) collaboration. Teacher learning communities formed when colleagues shared responsibilities, formed mentor/mentee relationships, and included student teachers and interns in the activity. This program could serve as a model for elementary school citizen science education, as well as a model for professional development for teachers to learn to teach science and Environmental Education outdoors.

  12. The Teaching Processes of Prospective Science Teachers with Different Levels of Science-Teaching Self-Efficacy Belief

    ERIC Educational Resources Information Center

    Saka, Mehpare; Bayram, Hale; Kabapinar, Filiz

    2016-01-01

    The concept of self-efficacy, which is an important variable in the teaching process, and how it reflects on teaching have recently been the focus of attention. Therefore, this study deals with the relationship between the science-teaching self-efficacy beliefs of prospective science teachers and their teaching practices. It was conducted with…

  13. Teaching Ethical Issues in Science.

    ERIC Educational Resources Information Center

    Levinson, Ralph

    This paper presents a study that investigates the teaching and learning aspects of controversial issues in science education. Teaching ethical issues is mandatory for science teachers in England; however, teachers may experience difficulties in exploring contemporary issues in science due to rapid and unpredictable changes. The study carries an…

  14. Atomic Absorption Spectroscopy of Calcium in Foodstuffs in Non-Science-Major Courses

    NASA Astrophysics Data System (ADS)

    Kostecka, Keith S.

    2000-10-01

    Non-science-major students at Columbia College-Chicago are introduced to the concept of ppm, prepare AAS standard solutions, digest foodstuffs in nitric acid, conduct AAS analysis for Ca, determine mass percentage of calcium in the sample, and check calcium levels in various food items on the Internet with a critical eye. Students work cooperatively in a setting that allows them to see how wet chemistry and understandable use of instrumental methods can be linked together. Overall response to this activity has been favorable and continues to spawn new projects dealing with the AAS analysis of metals in hair, vitamins, and additional foods.

  15. Impact of backwards faded scaffolding approach to inquiry-based astronomy laboratory experiences on undergraduate non-science majors' views of scientific inquiry

    NASA Astrophysics Data System (ADS)

    Lyons, Daniel J.

    This study explored the impact of a novel inquiry-based astronomy laboratory curriculum designed using the Backwards Faded Scaffolding inquiry teaching framework on non-science majoring undergraduate students' views of the nature of scientific inquiry (NOSI). The study focused on two aspects of NOSI: The Distinction between Data and Evidence (DvE), and The Multiple Methods of Science (MMS). Participants were 220 predominately non-science majoring undergraduate students at a small, doctoral granting, research-extensive university in the Rocky Mountain region of the United States. The student participants were enrolled in an introductory astronomy survey course with an associated laboratory section and were selected in two samples over consecutive fall and spring semesters. The participants also included four of the graduate student instructors who taught the laboratory courses using the intervention curriculum. In the first stage, student participant views of NOSI were measured using the VOSI-4 research instrument before and after the intervention curriculum was administered. The responses were quantified, and the distributions of pre and posttest scores of both samples were separately analyzed to determine if there was a significant improvement in understanding of either of the two aspects of NOSI. The results from both samples were compared to evaluate the consistency of the results. In the second stage, the quantitative results were used to strategically design a qualitative investigation, in which the four lab instructors were interviewed about their observations of how the student participants interacted with the intervention curriculum as compared to traditional lab activities, as well as their suggestions as to how the curriculum may or may not have contributed to the results of the first stage. These interviews were summarized and analyzed for common themes as to how the intervention curriculum influenced the students' understandings of the two aspect of

  16. Secondary school science teaching, 1970--1992: Objectives as stated in periodical literature

    NASA Astrophysics Data System (ADS)

    Hemby, Brian Franklin

    Purpose of the study. The major purpose of this study was to identify and classify objectives for teaching science in secondary schools in the United States during the period 1970--1992. These objectives were identified by objective statements in articles from selected professional periodicals. Procedure. The 1970--1992 period was divided into two subperiods on the basis of major historical events. Selected professional periodicals were searched for statements of objectives of secondary school science teaching. These statements were catalogued into Knowledge, Process, Attitude and Interest, or Cultural Awareness categories. The resulting data were classified within and across the two subperiods according to frequency of occurrence, category, authorship, and year. Findings. The major findings of this investigation included the following: (1) Authors in Higher Education produced the most articles, both research-oriented and nonresearch-oriented, and the most statements in each subperiod. Miscellaneous authors produced the least articles and statements. (2) Statements in the Process category were most frequent in the two subperiods. (3) The "most important" objectives for secondary school science teaching were Philosophical, sociological, and political aspects (from the Cultural Awareness category), Processes, skills, and techniques (from the Process category), and Major facts, principles, or fundamentals (from the Knowledge category). (4) Attitude and Interest objectives were consistently ranked as least important throughout the study. (5) The ranking of "most important" objectives in research-oriented articles generally agreed with the ranking in articles as a whole. Conclusions. Based on the findings of this investigation, the following conclusions were made: (1) The objectives for teaching secondary school science were influenced by historical events, especially the Vietnam War, the Cold War, the AIDS pandemic, and the publication of A Nation at Risk: The

  17. Investigating Omani Science Teachers' Attitudes towards Teaching Science: The Role of Gender and Teaching Experiences

    ERIC Educational Resources Information Center

    Ambusaidi, Abdullah; Al-Farei, Khalid

    2017-01-01

    A 30-item questionnaire was designed to determine Omani science teachers' attitudes toward teaching science and whether or not these attitudes differ according to gender and teaching experiences of teachers. The questionnaire items were divided into 3 domains: classroom preparation, managing hands-on science, and development appropriateness. The…

  18. Developing an Assessment Program for a University Health Sciences Major.

    ERIC Educational Resources Information Center

    Travis, H. Richard

    1996-01-01

    Reviews the procedures used by James Madison University (Virginia) to develop an assessment plan for the Health Sciences major. The assessment program included cognitive areas, basic competencies of entry-level health educators, student teaching, alumni surveys, and information literacy. The assessment program was reviewed by outside peer…

  19. Elementary Teachers' Perceptions of Teaching Science to Improve Student Content Knowledge

    NASA Astrophysics Data System (ADS)

    Stephenson, Robert L.

    The majority of Grade 5 students demonstrate limited science knowledge on state assessments. This trend has been documented since 2010 with no evidence of improvement. Because state accountability formulas include proficiency scores and carry sanctions against districts that fail to meet proficiency thresholds, improved student performance in science is an important issue to school districts. The purpose of this study was to explore elementary teachers' perceptions about their students' science knowledge, the strategies used to teach science, the barriers affecting science teaching, and the self-efficacy beliefs teachers maintain for teaching science. This study, guided by Vygotsky's social constructivist theory and Bandura's concept of self-efficacy, was a bounded instrumental case study in which 15 participants, required to be teaching K-5 elementary science in the county, were interviewed. An analytic technique was used to review the qualitative interview data through open coding, clustering, and analytical coding resulting in identified categorical themes that addressed the research questions. Key findings reflect students' limited content knowledge in earth and physical science. Teachers identified barriers including limited science instructional time, poor curricular resources, few professional learning opportunities, concern about new state standards, and a lack of teaching confidence. To improve student content knowledge, teachers identified the need for professional development. The project is a professional development series provided by a regional education service agency for K-5 teachers to experience science and engineering 3-dimensional learning. Area students will demonstrate deeper science content knowledge and benefit from improved science instructional practice and learning opportunities to become science problem solvers and innovative contributors to society.

  20. Towards a Science of Science Teaching

    ERIC Educational Resources Information Center

    Yates, Carolyn

    2009-01-01

    This article is a contribution to the search for evidence-based models of learning to improve science education. The author believes that modern teachers should look to the sciences of cognitive psychology and neuroscience to build a science of science teaching. Understanding the relationships between learning and the brain's structure and…

  1. Science teachers teaching socioscientific issues (SSI): Four case studies

    NASA Astrophysics Data System (ADS)

    Lee, Hyunju

    Socioscientific issues (SSI) are a class of issues that represent the social, ethical, and moral aspects of science in society. The need for the inclusion of SSI into science curricula has been generally accepted, but relatively few science teachers have incorporated SSI into their courses. Most science teachers feel that their most important task by far is to teach the principles of science, and any substantive pedagogical changes represent a burden. However, there are some teachers who address SSI out of personal initiatives. This dissertation study investigates four high school science teachers who address SSI out of their own initiative and explores their deeper inspirations, values, philosophies, and personal ideals that lead them to teach SSI. The overall approach is based on essentialist methodology (Witz, Goodwin, Hart, & Thomas, 2001; Witz, 2006a) with its focus on "the participant as ally" and "essentialist portraiture." The primary data source is four to six in-depth interviews with individual teachers (about 40-90 minutes for each interview). The interviews are complemented by extensive classroom observations of individual teachers' teaching SSI and by document analysis (including teaching materials, rubrics, student group projects and journals, etc.). There are two major findings. First, the teachers' deeper values and ideals are a source of larger inspiration that plays a significant role in changing their teaching practice. This inspiration may involve higher aspects (e.g., deep concern for students' development, unselfishness, caring, etc.) and commitment. Their teaching represents an integration of their personal experiences, values, concerns, and worldviews, which forms a larger inspiration for teaching. Teaching SSI is a part of this larger process. Second, the current curriculum reforms (STS, SSI, and NOS) only suggest theoretical ideals and do not effectively touch teachers' deeper values and ideals. Basically, the teachers are doing what they

  2. Research and Teaching: Using Twitter in a Nonscience Major Science Class Increases Journal of College Science Teaching

    ERIC Educational Resources Information Center

    Halpin, Patricia A.

    2016-01-01

    Nonscience majors often rely on general internet searches to locate science information. This practice can lead to misconceptions because the returned search information can be unreliable. In this article the authors describe how they used the social media site Twitter to address this problem in a general education course, BSCI 421 Diseases of the…

  3. Teaching Introductory Life Science Courses in Colleges of Agriculture: Faculty Experiences

    ERIC Educational Resources Information Center

    Balschweid, Mark; Knobloch, Neil A.; Hains, Bryan J.

    2014-01-01

    Insignificant numbers of college students declaring STEM majors creates concern for the future of the U.S. economy within the global marketplace. This study highlights the educational development and teaching strategies employed by STEM faculty in teaching first-year students in contextualized life science courses, such as animal, plant, and food…

  4. Pedagogy of Science Teaching Tests: Formative assessments of science teaching orientations

    NASA Astrophysics Data System (ADS)

    Cobern, William W.; Schuster, David; Adams, Betty; Skjold, Brandy Ann; Zeynep Muğaloğlu, Ebru; Bentz, Amy; Sparks, Kelly

    2014-09-01

    A critical aspect of teacher education is gaining pedagogical content knowledge of how to teach science for conceptual understanding. Given the time limitations of college methods courses, it is difficult to touch on more than a fraction of the science topics potentially taught across grades K-8, particularly in the context of relevant pedagogies. This research and development work centers on constructing a formative assessment resource to help expose pre-service teachers to a greater number of science topics within teaching episodes using various modes of instruction. To this end, 100 problem-based, science pedagogy assessment items were developed via expert group discussions and pilot testing. Each item contains a classroom vignette followed by response choices carefully crafted to include four basic pedagogies (didactic direct, active direct, guided inquiry, and open inquiry). The brief but numerous items allow a substantial increase in the number of science topics that pre-service students may consider. The intention is that students and teachers will be able to share and discuss particular responses to individual items, or else record their responses to collections of items and thereby create a snapshot profile of their teaching orientations. Subsets of items were piloted with students in pre-service science methods courses, and the quantitative results of student responses were spread sufficiently to suggest that the items can be effective for their intended purpose.

  5. Changes in Preservice Elementary Teachers' Personal Science Teaching Efficacy and Science Teaching Outcome Expectancies: The Influence of Context

    ERIC Educational Resources Information Center

    Hechter, Richard P.

    2011-01-01

    This study investigated contextual changes in perceptions of science teaching self-efficacy through pre-, post- and retrospective administrations of the Science Teaching Expectancy Belief Instrument (STEBI-B) among preservice elementary teachers when exposed to a science teaching methods course. Findings revealed that the number of postsecondary…

  6. The Effectiveness of Substituting Locally Available Materials in Teaching Chemistry in Nigeria: A Case for Science Education in Developing Countries

    ERIC Educational Resources Information Center

    DomNwachukwu, Nkechi S.; DomNwachukwu, Chinaka S.

    2006-01-01

    This article investigates the effectiveness of improvising locally available materials for teaching chemistry in Nigeria, as a case for a culture of improvisation for teaching the sciences in developing countries. The scarcity and cost of imported materials for teaching science has remained a major challenge to teaching sciences in developing…

  7. Preparing prospective physics teachers to teach integrated science in junior high school

    NASA Astrophysics Data System (ADS)

    Wiyanto; Hartono; Nugroho, S. E.

    2018-03-01

    The physics education study program especially prepares its students to teach physics in senior high school, however in reality many its graduates have become science teachers in junior high school. Therefore introducing integrated science to prospective physics teachers is important, because based on the curriculum, science in the junior high school should be taught integratedly. This study analyzed integrated science teaching materials that developed by prospective physics teachers. Results from this study showed that majority of the integration materials that developed by the prospective physics teachers focused on topic with an overlapping concept or theme as connecting between two or three subjects.

  8. Evaluating a Geology Curriculum for Non-Majors.

    ERIC Educational Resources Information Center

    Boone, William J.

    Two key factors affecting the success of non-major science courses are students' perceptions of topic difficulty and interest. An attitudinal survey administered to 300 college students, after completion of a college science course, evaluated their attitudes toward a geology curriculum. Using a Likert type scale students rated their level of…

  9. STEM for Non-STEM Majors: Enhancing Science Literacy in Large Classes

    ERIC Educational Resources Information Center

    Jin, Guang; Bierma, Tom

    2013-01-01

    This study evaluated a strategy using "clickers," POGIL (process oriented guided inquiry learning), and a focused science literacy orientation in an applied science course for non-STEM undergraduates taught in large classes. The effectiveness of these interventions in improving the science literacy of students was evaluated using a…

  10. Quality Teaching in Science: an Emergent Conceptual Framework

    NASA Astrophysics Data System (ADS)

    Jordens, J. Zoe; Zepke, Nick

    2017-09-01

    Achieving quality in higher education is a complex task involving the interrelationship of many factors. The influence of the teacher is well established and has led to some general principles of good teaching. However, less is known about the extent that specific disciplines influence quality teaching. The purposes of the paper are to investigate how quality teaching is perceived in the sciences and from these perceptions to develop for discussion a framework for teaching practice in the sciences. A New Zealand study explored the views of national teaching excellence award winners in science on quality teaching in undergraduate science. To capture all possible views from this expert panel, a dissensus-recognising Delphi method was used together with sensitising concepts based on complexity and wickedity. The emergent conceptual framework for quality teaching in undergraduate science highlighted areas of consensus and areas where there were a variety of views. About the purposes of science and its knowledge base, there was relative consensus, but there was more variable support for values underpinning science teaching. This highlighted the complex nature of quality teaching in science. The findings suggest that, in addition to general and discipline-specific influences, individual teacher values contribute to an understanding of quality in undergraduate science teaching.

  11. How Often Do Early Childhood Teachers Teach Science Concepts? Determinants of the Frequency of Science Teaching in Kindergarten

    ERIC Educational Resources Information Center

    Saçkes, Mesut

    2014-01-01

    The purpose of the present study was to explore how often teachers of young children teach science concepts in kindergarten and examine the factors that influence the frequency of science teaching in early years. A theoretical model of the determinants of the frequency of science teaching in kindergarten was developed and tested using a…

  12. Influencing Intended Teaching Practice: Exploring pre-service teachers' perceptions of science teaching resources

    NASA Astrophysics Data System (ADS)

    Cooper, Grant; Kenny, John; Fraser, Sharon

    2012-08-01

    Many researchers have identified and expressed concern over the state of science education internationally, but primary teachers face particular obstacles when teaching science due to their poor science background and low confidence with science. Research has suggested that exemplary resources, or units that work, may be an effective way to support primary teachers. This study explores the effect of one such resource on the intentions of pre-service primary teachers to teach science. The resource in question is Primary Connections, a series of learning resources produced by the Australian Academy of Science specifically designed for primary science. Evaluative studies of Primary Connections have indicated its efficacy with practising primary teachers but there is little evidence of its impact upon pre-service teachers. The purpose of this study was to investigate how effective these quality teaching resources were in influencing the intentions of primary pre-service teachers to teach science after they graduated. The theory of planned behaviour highlighted the linkage between the intentions of the pre-service teachers to teach science, and their awareness of and experiences with using Primary Connections during their education studies. This enabled key factors to be identified which influenced the intentions of the pre-service teachers to use Primary Connections to teach science after they graduate. The study also provided evidence of how quality science teaching resources can be effectively embedded in a teacher education programme as a means of encouraging and supporting pre-service teachers to teach science.

  13. Teaching Science through Research.

    ERIC Educational Resources Information Center

    Hugerat, Muhamad; Zidani, Saleem; Kurtam, Naji

    2003-01-01

    Discusses the objectives of the science curriculum and the teacher's responsibility of passing through not only the required material, but also skills. Suggests that in order to improve teaching and learning skills, new strategies, such as teaching and learning through research must be utilized. Presents four examples of teaching and learning…

  14. Teaching planetary sciences to elementary school teachers: Programs that work

    NASA Technical Reports Server (NTRS)

    Lebofsky, Larry A.; Lebofsky, Nancy R.

    1993-01-01

    Planetary sciences can be used to introduce students to the natural world which is a part of their lives. Even children in an urban environment are aware of such phenomena as day and night, shadows, and the seasons. It is a science that transcends cultures, has been prominent in the news in recent years, and can generate excitement in young minds as no other science can. Planetary sciences also provides a useful tool for understanding other sciences and mathematics, and for developing problem solving skills which are important in our technological world. However, only 15 percent of elementary school teachers feel very well qualified to teach earth/space science, while better than 80 percent feel well qualified to teach reading; many teachers avoid teaching science; very little time is actually spent teaching science in the elementary school: 19 minutes per day in K-3 and 38 minutes per day in 4-6. While very little science is taught in elementary and middle school, earth/space science is taught at the elementary level in less than half of the states. It was pointed out that science is not generally given high priority by either teachers or school districts, and is certainly not considered on a par with language arts and mathematics. Therefore, in order to teach science to our youth, we must empower our teachers, making them familiar and comfortable with existing materials. In our earlier workshops, several of our teachers taught in classrooms where the majority of the students were Hispanic (over 90 percent). However, few space sciences materials existed in Spanish. Therefore, most of our materials could not be used effectively in the classroom. To address this issue, NASA materials were translated into Spanish and a series of workshops for bilingual classroom teachers from Tucson and surrounding cities was conducted. Our space sciences workshops and our bilingual classroom workshops and how they address the needs of elementary school teachers in Arizona are

  15. Science Motivation Questionnaire II: Validation with Science Majors and Nonscience Majors

    ERIC Educational Resources Information Center

    Glynn, Shawn M.; Brickman, Peggy; Armstrong, Norris; Taasoobshirazi, Gita

    2011-01-01

    From the perspective of social cognitive theory, the motivation of students to learn science in college courses was examined. The students--367 science majors and 313 nonscience majors--responded to the Science Motivation Questionnaire II, which assessed five motivation components: intrinsic motivation, self-determination, self-efficacy, career…

  16. Collegiality and Better Science Teaching

    ERIC Educational Resources Information Center

    Weiser, Brenda

    2012-01-01

    For the past five years, teachers from four Houston-area school districts have joined together in a professional learning community (PLC) to improve their science teaching. Through the University of Houston-Clear Lake (UHCL) Regional Collaborative for Excellence in Science and Mathematics Teaching, the teachers strengthen content knowledge and…

  17. A Thai pre-service teacher's understanding of nature of science in biology teaching

    NASA Astrophysics Data System (ADS)

    Srisawat, Akkarawat; Aiemsum-ang, Napapan; Yuenyong, Chokchai

    2018-01-01

    This study was conducted on the effect of understanding and instruction of the nature of science of Ms. Wanida, a pre-service student under science education program in biology, Faculty of Education, Khon Kaen University. Wanida was a teaching practicum student majoring in biology at Khon Kaen University Demonstration School (Modindaeng). She was teaching biology for 38 Grade 10 students. Methodology regarded interpretive paradigm. The study aimed to examine 1) Wanida's understanding of the nature of science, 2) Wanida's instruction of the nature of science, 3 students' understanding of the nature of science from Wanida's instruction, and 4) the effects of Wanida's understanding and instruction of the nature of science on students' understanding of the nature of science from Wanida's instruction. Tools of interpretation included teaching observation, a semi-structured interview, open-ended questionnaire, and an observation record form for the instruction of the nature of science. The data obtained was interpreted, encoded, and classified, using the descriptive statistics. The findings indicated that Wanida held good understanding of the nature of science. She could apply the deficient nature of science approach mostly, followed by the implicit nature of science approach. Unfortunately, she could not show her teaching as explicit nature of science. However, her students' the understanding of the nature of science was good.

  18. Development of interest in science and interest in teaching elementary science: Influence of informal, school, and inquiry methods course experiences

    NASA Astrophysics Data System (ADS)

    Bulunuz, Mizrap

    Inquiry-based science instruction is a major goal of science education reform. However, there is little research examining how preservice elementary teachers might be motivated to teach through inquiry. This quantitative study was designed to examine the role of background experiences and an inquiry science methods course on interest in science and interest in teaching science. The course included many activities and assignments at varying levels of inquiry, designed to teach content and inquiry methods and to model effective teaching. The study involved analyses of surveys completed by students in the course on their experiences with science before, during, and at the end of the course. The following questions guided the design of this study and analysis of the data: (1) What science background experiences (school, home, and informal education) do participants have and how do those experiences affect initial interest in science? (2) Among the hands-on activities in the methods course, is there a relationship between level of inquiry of the activity and the motivational quality (interesting, fun, and learning) of the activity? (3) Does the course affect participants' interest and attitude toward science? (4) What aspects of the course contribute to participants' interest in teaching science and choice to teach science? Descriptive and inferential analysis of a background survey revealed that participants with high and low initial interest in science differed significantly on remembering about elementary school science and involvement in science related activities in childhood/youth. Analysis of daily ratings of each hands-on activity on motivational qualities (fun, interest, and learning) indicated that there were significant differences in motivational quality of the activities by level of inquiry with higher levels of inquiry rated more positively. Pre/post surveys indicated that participants increased in interest in science and a number of variables reflecting

  19. Design, implementation and evaluation of innovative science teaching strategies for non-formal learning in a natural history museum

    NASA Astrophysics Data System (ADS)

    Çil, Emine; Maccario, Nihal; Yanmaz, Durmuş

    2016-09-01

    Background: Museums are useful educational resources in science teaching. Teaching strategies which promote hands-on activities, student-centred learning, and rich social interaction must be designed and implemented throughout the museum visit for effective science learning.

  20. From learning science to teaching science: What transfers?

    NASA Astrophysics Data System (ADS)

    Harlow, Danielle Boyd

    As educational researchers and teacher educators, we have the responsibility to help teachers gain the skills and knowledge necessary to provide meaningful learning activities for their students. For elementary school science, this means helping teachers create situations in which children can participate in the practices associated with scientific inquiry. Through the framework of transfer I investigated how a professional development course based on an inquiry-based physics curriculum influenced five elementary teachers teaching practices and identified the factors that led to or hindered this transfer. In this study, evidence of transfer consisted of episodes where the teachers used the ideas learned in the physics course to solve new problems such as transforming activities to be appropriate for their students and responding to unexpected students' ideas. The findings of this study highlight the many different ways that teachers use what they learn in content courses to teach science to elementary children. While some teachers transferred pedagogical practices along with the content, others transformed the content to be useful in already existing pedagogical frameworks, and still others show little or no evidence of transfer. What the teachers transferred depended upon their existing teaching context as well as their prior ideas about teaching science and physics content. Specifically, the findings of this study suggest that the teachers transferred only what they sought from the course. One implication of this study is that the sort of science training we provide teachers can affect far more than just the teachers' conceptual understanding of science and performance on written conceptual exams. Science courses have the potential to impact the sort of science education that K-5 children receive in elementary classrooms in terms of the topics taught but the way that science is represented. An additional implication is that teaching science to teachers in ways

  1. Facilitating Elementary Science Teachers' Implementation of Inquiry-Based Science Teaching

    ERIC Educational Resources Information Center

    Qablan, Ahmad M.; DeBaz, Theodora

    2015-01-01

    Preservice science teachers generally feel that the implementation of inquiry-based science teaching is very difficult to manage. This research project aimed at facilitating the implementation of inquiry-based science teaching through the use of several classroom strategies. The evaluation of 15 classroom strategies from 80 preservice elementary…

  2. Provocative Opinion: Fads in Science Teaching

    ERIC Educational Resources Information Center

    Parry, R. W.

    1975-01-01

    Criticizes the post-Sputnik wave of multi-disciplinary science curricula aimed at teaching the students about social problems and how science can help solve these problems. Suggests that science teaching should concentrate more on the basics of a given discipline and should be taught be specialists rather than generalists. (MLH)

  3. Teaching the Human Dimension of Science

    ERIC Educational Resources Information Center

    Farland-Smith, Donna; McComas, William

    2009-01-01

    Teachers have the important responsibility of providing students with accurate and engaging science content while also helping them establish authentic views of scientists. Though there are numerous curriculum materials to assist in the teaching of science content, the authors have found that methods and materials to teach science as a human…

  4. A Research on Reading Strategies among Non-English Major Postgraduates

    ERIC Educational Resources Information Center

    Yang, Yang

    2016-01-01

    As a very important skill both in English teaching and learning, reading strategy has been emphasized at home and abroad for a long time. Many scholars and teachers make research on undergraduates of English major or non-English major. However, the postgraduates are often neglected. Actually, it is also imperative to make a study among…

  5. Towards teaching science for social responsibility: An examination of flaws in science, technology and society

    NASA Astrophysics Data System (ADS)

    Cross, Roger T.; Price, Ronald F.

    1991-12-01

    In this paper we continue our search for a socially responsible science education by an examination of the trends in the Science, Technology and Society movement. These trends reflect differing ideological perspectives and result in courses which serve different ends. We identify two major flaws in the movement that inhibits the realization of a schooling in science dedicated to democracy. We propose skills necessary for citizens to participate in debate over issues surrounding the impact of science and technology on society and a teaching stategy to help develop them.

  6. Learning through Teaching: A New Perspective on Entering a Discipline

    ERIC Educational Resources Information Center

    Elmendorf, Heidi G.

    2006-01-01

    In this essay, the author describes her experience with an experiential model of learning through teaching that gives college students the opportunity to use what they learn in the college classroom to develop curricula and then teach those curricula in an elementary school. Her specific experience was with a science course for non-science majors,…

  7. A Comparison of Pupil Control Iedology of Science and Non-Science Secondary Student Teachers.

    ERIC Educational Resources Information Center

    Jones, Dan R.

    This paper examines data on pupil control ideology (PCI) from two separate research studies involving secondary student teachers. A comparison was made of the results of the studies contrasting two student teaching populations: (1) eight weeks science (N=19) and (2) sixteen weeks non-science (N=22). The pupil control ideology of the secondary…

  8. Peer Assessment of Elementary Science Teaching Skills

    ERIC Educational Resources Information Center

    Kilic, Gulsen Bagci; Cakan, Mehtap

    2007-01-01

    In this study, peer assessment was applied in assessing elementary science teaching skills. Preservice teachers taught a science topic as a team to their peers in an elementary science methods course. The peers participating in the science lesson assessed teacher-groups' elementary science teaching skills on an assessment form provided by the…

  9. Studies on attitude toward teaching science and anxiety about teaching science in preservice elementary teachers

    NASA Astrophysics Data System (ADS)

    Westerback, Mary E.

    These studies examined attitude toward teaching science (ATTS) using an adaptation of the Bratt Attitude Test (M-BAT); anxiety about teaching science (ANX-TS), as measured by the State-Trait Anxiety Inventory (STAI A-State); and selected demographic variables in preservice elementary teachers for the 1977-1978 and 1978-1979 academic years and a follow-up of those students who completed their student teaching in May 1979. The M-BAT and STAI were administered in September at the beginning of Science 6 (earth science and biology course), in December on the next to last day of Science 6, in May on the next to the last day of Science 5 (physical science), and in May 1979 after student teaching. In the two academic years, both ATTS and ANX-TS became more positive during the sequence Science 6-5. Both changes in ATTS and ANX-TS continued to change in a positive direction after completion of Science 6-5, after student teaching. There were differences in the times that the greatest changes in ATTS and ANX-TS occurred. In both studies, the greatest change in ATTS took place between September and December, during Science 6. The greatest change in ANX-TS, however, took place during Science 5 between December and May in the 1977-1978 study. In the 1978-1979 study, the greatest changes in ANX-TS occurred in Science 6, between September and December. The delayed reduction of ANX-TS in the 1977-1978 study may be explained by differences in teaching patterns. In 1977-1978, two teachers taught only their academic specialty, biology or earth science, to students who switched teachers midsemester. In 1978-1979, the same two instructors taught both biology and earth science to the same students. Correlation coefficients for successive and corresponding administrations of both the M-BAT and STAI suggest these variables are related. Students with more positive ATTS tended to have reduced ANX-TS. Neither the number of high school or college science and math courses completed nor the level

  10. Preservice Science Teachers' Science Teaching Orientations and Beliefs about Science

    ERIC Educational Resources Information Center

    Kind, Vanessa

    2016-01-01

    This paper offers clarification of science teacher orientations as a potential component of pedagogical content knowledge. Science teaching orientations and beliefs about science held by 237 preservice science teachers were gathered via content-specific vignettes and questionnaire, respectively, prior to participation in a UK-based teacher…

  11. Ibn al-Haytham: An Answer to Multicultural Science Teaching?

    ERIC Educational Resources Information Center

    Bettany, Laurence

    1995-01-01

    Describes the major contributions to optics of Ibn al-Haytham, prolific Arab scientist. Recent partial translation of his "Book of Optics" enables an accounting of his work and provides the opportunity to connect this historical personage and his contributions to the current debates on multicultural science teaching. Contains 18 references. (DDR)

  12. An exploration of equitable science teaching practices for students with learning disabilities

    NASA Astrophysics Data System (ADS)

    Morales, Marlene

    In this study, a mixed methods approach was used to gather descriptive exploratory information regarding the teaching of science to middle grades students with learning disabilities within a general education classroom. The purpose of this study was to examine teachers' beliefs and their practices concerning providing equitable opportunities for students with learning disabilities in a general education science classroom. Equitable science teaching practices take into account each student's differences and uses those differences to inform instructional decisions and tailor teaching practices based on the student's individualized learning needs. Students with learning disabilities are similar to their non-disabled peers; however, they need some differentiation in instruction to perform to their highest potential achievement levels (Finson, Ormsbee, & Jensen, 2011). In the quantitative phase, the purpose of the study was to identify patterns in the beliefs of middle grades science teachers about the inclusion of students with learning disabilities in the general education classroom. In the qualitative phase, the purpose of the study was to present examples of instruction in the classrooms of science education reform-oriented middle grades science teachers. The quantitative phase of the study collected data from 274 sixth through eighth grade teachers in the State of Florida during the 2007--2008 school year using The Teaching Science to Students with Learning Disabilities Inventory. Overall, the quantitative findings revealed that middle grades science teachers held positive beliefs about the inclusion of students with learning disabilities in the general education science classroom. The qualitative phase collected data from multiple sources (interviews, classroom observations, and artifacts) to develop two case studies of reform-oriented middle grades science teachers who were expected to provide equitable science teaching practices. Based on their responses to The

  13. Teaching Science through Inquiry

    ERIC Educational Resources Information Center

    Wilcox, Jesse; Kruse, Jerrid W.; Clough, Michael P.

    2015-01-01

    Science education efforts have long emphasized inquiry, and inquiry and scientific practices are prominent in contemporary science education reform documents (NRC 1996; NGSS Lead States 2013). However, inquiry has not become commonplace in science teaching, in part because of misunderstandings regarding what it means and entails (Demir and Abell…

  14. Middle school science teachers' teaching self-efficacy and students' science self-efficacy

    NASA Astrophysics Data System (ADS)

    Pisa, Danielle

    Project 2061, initiated by the American Association for the Advancement of Science (AAAS), developed recommendations for what is essential in education to produce scientifically literate citizens. Furthermore, they suggest that teachers teach effectively. There is an abundance of literature that focuses on the effects of a teacher's science teaching self-efficacy and a student's science self-efficacy. However, there is no literature on the relationship between the two self-efficacies. This study investigated if there is a differential change in students' science self-efficacy over an academic term after instruction from a teacher with high science teaching self-efficacy. Quantitative analysis of STEBI scores for teachers showed that mean STEBI scores did not change over one academic term. A t test indicated that there was no statistically significant difference in mean SMTSL scores for students' science self-efficacy over the course of one academic term for a) the entire sample, b) each science class, and c) each grade level. In addition, ANOVA indicated that there was no statistically significant difference in mean gain factor of students rated as low, medium, and high on science self-efficacy as measured by the SMTSL, when students received instruction from a teacher with a high science teaching self-efficacy value as measured by the STEBI. Finally, there was no statistically significant association between the pre- and post-instructional rankings of SMTSL by grade level when students received instruction from a teacher with a high science teaching self-efficacy value as measured by the STEBI. This is the first study of its kind. Studies indicated that teaching strategies typically practiced by teachers with high science teaching were beneficial to physics self-efficacy (Fencl & Scheel, 2005). Although it was unsuccessful at determining whether or not a teacher with high science teaching self-efficacy has a differential affect on students' science self

  15. Design, Implementation and Evaluation of Innovative Science Teaching Strategies for Non-Formal Learning in a Natural History Museum

    ERIC Educational Resources Information Center

    Çil, Emine; Maccario, Nihal; Yanmaz, Durmus

    2016-01-01

    Background: Museums are useful educational resources in science teaching. Teaching strategies which promote hands-on activities, student-centred learning, and rich social interaction must be designed and implemented throughout the museum visit for effective science learning. Purpose: This study aimed to design and implement innovative teaching…

  16. Science Teaching in Rhodesia

    ERIC Educational Resources Information Center

    Smith, A. L.

    1975-01-01

    Describes science teaching in Rhodesia as beset with limitations in the quality of students, in student motivation, in the number and quality of teachers, in the Rhodesian environment, and in the science syllabuses themselves. (Author/GS)

  17. Views from the Chalkface. Values of Teaching Nature of Science in Hong Kong

    NASA Astrophysics Data System (ADS)

    Wan, Zhi Hong; Wong, Siu Ling

    2016-12-01

    Although the goal of developing school students' understanding of nature of science (NOS) has long been advocated, there is still a lack of research that focuses on probing how science teachers, a kind of major stakeholder in NOS instruction, perceive the values of teaching NOS. Through semi-structured interviews, this study investigated the views of 15 Hong Kong in-service senior secondary science teachers about the values of teaching NOS. These values as perceived by the teachers fall into two types. The first type is related to students' learning of science in the classroom and involves: (i) facilitating the study of subject knowledge, (ii) increasing the interest in learning science, (iii) supporting the conduct of scientific inquiry, (iv) meeting the needs of public examinations, and (v) fulfilling the requirement of learning science. The second type goes beyond learning science and includes (i) developing thinking skills, (ii) cultivating scientific ethics in students, and (iii) supporting the participation in public decisions on socioscientific issues. Although rich relationships were perceived by these teachers between NOS instruction and students' learning of science, few values were stated from broad social and cultural perspectives. Suggestions are made about developing teachers' views of the values of teaching NOS so as to influence their intention of teaching it.

  18. Citizen Science- Lessons learned from non-science majors involved in Globe at Night and the Great Worldwide Star Count

    NASA Astrophysics Data System (ADS)

    Browning, S.

    2011-12-01

    Non-science majors often misunderstand the process of science, potentially leading to a fear or mistrust of scientific inquiry and current scientific theory. Citizen science projects are a critical means of reaching this audience, as many will only take a limited number of science courses during their undergraduate careers. For the past three years, our freshman Earth Science students have participated in both Globe at Night and the Great Worldwide Star Count, citizen science programs that encourage simple astronomical observations which can be compiled globally to investigate a number of issues. Our focus has been introducing students to the effect of light pollution on observational astronomy in an effort to highlight the effect of increasing urbanization in the U.S. on amateur astronomy. These programs, although focused on astronomy, often awaken natural curiosity about the Earth and man's effect on the natural world, a concept that can easily be translated to other areas of Earth science. Challenges encountered include content specific issues, such as misinterpreting the location or magnitude of the constellation being observed, as well as student disinterest or apathy if the project is not seen as being vital to their performance in the course. This presentation reports on lessons learned in the past three years, and offers suggestions for engaging these students more fully in future projects.

  19. Pedagogy of Science Teaching Tests: Formative Assessments of Science Teaching Orientations

    ERIC Educational Resources Information Center

    Cobern, William W.; Schuster, David; Adams, Betty; Skjold, Brandy Ann; Mugaloglu, Ebru Zeynep; Bentz, Amy; Sparks, Kelly

    2014-01-01

    A critical aspect of teacher education is gaining pedagogical content knowledge of how to teach science for conceptual understanding. Given the time limitations of college methods courses, it is difficult to touch on more than a fraction of the science topics potentially taught across grades K-8, particularly in the context of relevant pedagogies.…

  20. The 5E Instructional Model: A Learning Cycle Approach for Inquiry-Based Science Teaching

    ERIC Educational Resources Information Center

    Duran, Lena Ballone; Duran, Emilio

    2004-01-01

    The implementation of inquiry-based teaching is a major theme in national science education reform documents such as "Project 2061: Science for All Americans" (Rutherford & Alhgren, 1990) and the "National Science Education Standards" (NRC, 1996). These reports argue that inquiry needs to be a central strategy of all…

  1. Teaching about Teaching Science: Aims, Strategies, and Backgrounds of Science Teacher Educators

    ERIC Educational Resources Information Center

    Berry, Amanda; Van Driel, Jan H.

    2013-01-01

    Despite pressing concerns about the need to prepare high-quality teachers and the central role of teacher educators (TEs) in this process, little is known about how TEs teach about teaching specific subject matter, and how they develop their expertise. This empirical study focuses on the specific expertise that science TEs bring into teacher…

  2. Emotions in teaching environmental science

    NASA Astrophysics Data System (ADS)

    Quigley, Cassie

    2016-09-01

    This op-ed article examines the emotional impact of teaching environmental science and considers how certain emotions can broaden viewpoints and other emotions narrow them. Specifically, it investigates how the topic of climate change became an emotional debate in a science classroom because of religious beliefs. Through reflective practice and examination of positionality, the author explored how certain teaching practices of pre-service science teachers created a productive space and other practices closed down the conversations. This article is framed with theories that explore both divergent and shared viewpoints.

  3. Teaching With and About Nature of Science, and Science Teacher Knowledge Domains

    NASA Astrophysics Data System (ADS)

    Abd-El-Khalick, Fouad

    2013-09-01

    The ubiquitous goals of helping precollege students develop informed conceptions of nature of science (NOS) and experience inquiry learning environments that progressively approximate authentic scientific practice have been long-standing and central aims of science education reforms around the globe. However, the realization of these goals continues to elude the science education community partly because of a persistent, albeit not empirically supported, coupling of the two goals in the form of `teaching about NOS with inquiry'. In this context, the present paper aims, first, to introduce the notions of, and articulate the distinction between, teaching with and about NOS, which will allow for the meaningful coupling of the two desired goals. Second, the paper aims to explicate science teachers' knowledge domains requisite for effective teaching with and about NOS. The paper argues that research and development efforts dedicated to helping science teachers develop deep, robust, and integrated NOS understandings would have the dual benefits of not only enabling teachers to convey to students images of science and scientific practice that are commensurate with historical, philosophical, sociological, and psychological scholarship (teaching about NOS), but also to structure robust inquiry learning environments that approximate authentic scientific practice, and implement effective pedagogical approaches that share a lot of the characteristics of best science teaching practices (teaching with NOS).

  4. "I'm Not the Science Type": Effect of an Inquiry Biology Content Course on Preservice Elementary Teachers' Intentions about Teaching Science

    ERIC Educational Resources Information Center

    Weld, Jeffrey; Funk, Lucas

    2005-01-01

    Inquiry Into Life Science is a content biology course expressly for the fulfillment of the General Education life science laboratory course requirement of elementary education majors at this university. The course is modeled on the Teaching Standards and Content Standards of the National Science Education Standards [National Research Council.…

  5. Teaching Physics to Environmental Science Majors Using a Flipped Course Approach

    NASA Astrophysics Data System (ADS)

    Hill, N. B.; Riha, S. J.; Wysocki, M. W.

    2014-12-01

    Coursework in physics provides a framework for quantitative reasoning and problem solving skill development in budding geoscientists. To make physical concepts more accessible and relevant to students majoring in environmental science, an environmental physics course was developed at Cornell University and offered for the first time during spring 2014. Principles of radiation, thermodynamics, and mechanics were introduced and applied to the atmosphere, hydrosphere, and lithosphere to describe energy and mass transfers in natural and built environments. Environmental physics was designed as a flipped course where students viewed online material outside of class and worked in groups in class to solve sustainability problems. Experiential learning, just-in-time teaching, and peer collaboration strategies were also utilized. In-class problems were drawn from both local and global environmental sustainability concerns. Problems included an investigation of Cornell's lake source cooling system, calculations on the energy consumed in irrigation with groundwater in the southwestern United States, and power generated by wind turbines at various locations around the world. Class attendance was high, with at least 84% of students present at each meeting. Survey results suggest that students enjoyed working in groups and found the in-class problems helpful for assimilating the assigned material. However, some students reported that the workload was too heavy and they preferred traditional lectures to the flipped classroom. The instructors were able to actively engage with students and quickly identify knowledge and skill gaps that needed to be addressed. Overall, the integration of current environmental problems and group work into an introductory physics course could help to inspire and motivate students as they advance their ability to analyze problems quantitatively.

  6. Developing "Green" Business Plans: Using Entrepreneurship to Teach Science to Business Administration Majors and Business to Biology Majors

    ERIC Educational Resources Information Center

    Letovsky, Robert; Banschbach, Valerie S.

    2011-01-01

    Biology majors team with business administration majors to develop proposals for "green" enterprise for a business plan competition. The course begins with a series of student presentations so that science students learn about the fundamentals of business, and business students learn about environmental biology. Then mixed biology-business student…

  7. Developing Interpretive Power in Science Teaching

    ERIC Educational Resources Information Center

    Rosebery, Ann S.; Warren, Beth; Tucker-Raymond, Eli

    2016-01-01

    Early career teachers rarely receive sustained support for addressing issues of diversity and equity in their science teaching. This paper reports on design research to create a 30 hour professional development seminar focused on cultivating the interpretive power of early career teachers who teach science to students from historically…

  8. The Effect of a Computer Program Designed with Constructivist Principles for College Non-Science Majors on Understanding of Photosynthesis and Cellular Respiration

    ERIC Educational Resources Information Center

    Wielard, Valerie Michelle

    2013-01-01

    The primary objective of this project was to learn what effect a computer program would have on academic achievement and attitude toward science of college students enrolled in a biology class for non-science majors. It became apparent that the instructor also had an effect on attitudes toward science. The researcher designed a computer program,…

  9. Contributions of Science Principles to Teaching: How Science Principles Can Be Used

    ERIC Educational Resources Information Center

    Henson, Kenneth T.

    1974-01-01

    Describes the steps involved in using the "principles" approach in teaching science, illustrates the process of using science principles with an example relating to rock formation, and discusses the relevance of this approach to contemporary trends in science teaching. (JR)

  10. Science That Matters: Exploring Science Learning and Teaching in Primary Schools

    ERIC Educational Resources Information Center

    Fitzgerald, Angela; Smith, Kathy

    2016-01-01

    To help support primary school students to better understand why science matters, teachers must first be supported to teach science in ways that matter. In moving to this point, this paper identifies the dilemmas and tensions primary school teachers face in the teaching of science. The balance is then readdressed through a research-based…

  11. The effect of concept mapping on preservice elementary teachers' knowledge of science inquiry teaching

    NASA Astrophysics Data System (ADS)

    Jackson, Diann Carol

    This study examined the effect of concept mapping as a method of stimulating reflection on preservice elementary teachers' knowledge of science inquiry instruction methods. Three intact classes of science education preservice teachers participated in a non-randomized comparison group with a pretest and posttest design to measure the influence of mapping on participants' knowledge of inquiry science instruction. All groups followed the same course syllabus, in class activities, readings, assignments and assessment tasks. The manner in which they presented their ideas about inquiry science teaching varied. Groups constructed pre-lesson, post-lesson, and homework lists or maps across three inquiry based instruction modules (ecosystems, food chains, and electricity). Equivalent forms of the Teaching Science Inventory (TSI) were used to investigate changes in preservice teachers' propositional knowledge about how to teach using inquiry science instruction methods. Equivalent forms of the Science Lesson Planning (SLP) test were used to investigate changes in preservice teachers' application knowledge about how to teach using inquiry science instruction methods. Data analysis included intrarater reliability, ANOVAs, ANCOVAs, and correlations between lists and maps and examination responses. SLP and TSI scores improved from the pretest to the posttest in each of the three study groups. The results indicate that, in general, there were basically no relationships between the treatment and outcome measures. In addition, there were no significant differences between the three groups in their knowledge about how to teach science. Conclusions drawn from this study include, first, the learners did learn how to teach science using inquiry. Second, in this study there is little evidence to support that concept mapping was more successful than the listing strategy in improving preservice elementary teachers' knowledge of teaching science using inquiry science instruction methods.

  12. Teaching Planetary Sciences in Bilingual Classrooms

    NASA Astrophysics Data System (ADS)

    Lebofsky, L. A.; Lebofsky, N. R.

    1993-05-01

    Planetary sciences can be used to introduce students to the natural world which is a part of their lives. Even children in an urban environment are aware of such phenomena as day and night, shadows, and the seasons. It is a science that transcends cultures, has been prominent in the news in recent years, and can generate excitement in young minds as no other science can. It also provides a useful tool for understanding other sciences and mathematics, and for developing problem solving skills which are important in our technological world. However, only 15 percent of elementary school teachers feel very well qualified to teach earth/space science, while better than 80% feel well qualified to teach reading; many teachers avoid teaching science; very little time is actually spent teaching science in the elementary school: 19 minutes per day in K--3 and 38 minutes per day in 4--6. While very little science is taught in elementary and middle school, earth/space science is taught at the elementary level in less than half of the states. Therefore in order to teach earth/space science to our youth, we must empower our teachers, making them familiar and comfortable with existing materials. Tucson has another, but not unique, problem. The largest public school district, the Tucson Unified School District (TUSD), provides a neighborhood school system enhanced with magnet, bilingual and special needs schools for a school population of 57,000 students that is 4.1% Native American, 6.0% Black, and 36.0% Hispanic (1991). This makes TUSD and the other school districts in and around Tucson ideal for a program that reaches students of diverse ethnic backgrounds. However, few space sciences materials exist in Spanish; most materials could not be used effectively in the classroom. To address this issue, we have translated NASA materials into Spanish and are conducting a series of workshops for bilingual classroom teachers. We will discuss in detail our bilingual classroom workshops

  13. Preservice Science Teachers' Uses of Inscriptions in Science Teaching

    ERIC Educational Resources Information Center

    Tanis Ozcelik, Arzu; McDonald, Scott P.

    2013-01-01

    This study investigated preservice science teachers' uses of inscriptions in their peer teaching activities and was guided by the following research questions: (1) What kinds of inscriptions and inscriptional practices do preservice science teachers use in their peer teaching activity? and (2) How and for what purposes do preservice science…

  14. Factors Related to the Choice of Science as a Major among Negro College Students.

    ERIC Educational Resources Information Center

    Tilford, Michael Phillip

    The purpose of this study was to identify some of the characteristics of Negro college students who majored in science in comparison to those who were non-majors. The science majors were sub-divided into pure science and applied science groups for some analyses. Twelve variables were investigated: (1) ACT composite scores, (2) ACT science scores,…

  15. Newly qualified teachers' visions of science learning and teaching

    NASA Astrophysics Data System (ADS)

    Roberts, Deborah L.

    2011-12-01

    This study investigated newly qualified teachers' visions of science learning and teaching. The study also documented their preparation in an elementary science methods course. The research questions were: What educational and professional experiences influenced the instructor's visions of science learning and teaching? What visions of science learning and teaching were promoted in the participants' science methods course? What visions of science learning and teaching did these newly qualified teachers bring with them as they graduated from their teacher preparation program? How did these visions compare with those advocated by reform documents? Data sources included participants' assignments, weekly reflections, and multi-media portfolio finals. Semi-structured interviews provided the emic voice of participants, after graduation but before they had begun to teach. These data were interpreted via a combination of qualitative methodologies. Vignettes described class activities. Assertions supported by excerpts from participants' writings emerged from repeated review of their assignments. A case study of a typical participant characterized weekly reflections and final multi-media portfolio. Four strands of science proficiency articulated in a national reform document provided a framework for interpreting activities, assignments, and interview responses. Prior experiences that influenced design of the methods course included an inquiry-based undergraduate physics course, participation in a reform-based teacher preparation program, undergraduate and graduate inquiry-based science teaching methods courses, participation in a teacher research group, continued connection to the university as a beginning teacher, teaching in diverse Title 1 schools, service as the county and state elementary science specialist, participation in the Carnegie Academy for the Scholarship of Teaching and Learning, service on a National Research Council committee, and experience teaching a

  16. The science knowledge, conceptions of the nature of science, attitudes about teaching science, and science instructional strategies of bilingual and English-only elementary teachers

    NASA Astrophysics Data System (ADS)

    Alegria, Adelina Victoria

    use of similar instructional strategies, many of which are known to support science learning in the classroom (laboratory/hands-on activities, whole group discussion, questioning, and cooperative/small group activities). Concerning assessment strategies, both the bilingual and English-only groups reported very similar answers. They reported usually making use of students' projects, student's logs/journals/diaries, performance activities such as lab practicals and hands-on tests to assess science learning. They also reported seldom or never making use of paper/pencil quizzes nor end-of-chapter/unit tests. There was not enough clear information to decide whether bilingual and English-only elementary respondents hold similar or different views of science. This study's implications encompass two different areas: (a) changes that bilingual and elementary credentialing programs need to undergo and (b) further bilingual science teaching research. The findings concerned with science knowledge, that both bilingual and English-only elementary teachers possess a limited science knowledge base leads me to suggest, just as the science teaching literature has suggested, that elementary credentialing programs need to strengthen their candidates' science content by increasing the science content addressed in the science methodology courses and/or by requiring a greater number of science undergraduate courses (most liberal arts majors require no more than five courses, San Diego State University, 1999). (Abstract shortened by UMI.)

  17. A Truth-Based Epistemological Framework for Supporting Teachers in Integrating Indigenous Knowledge into Science Teaching

    ERIC Educational Resources Information Center

    Zinyeka, Gracious; Onwu, Gilbert O.M.; Braun, Max

    2016-01-01

    Integrating indigenous knowledge (IK) into school science teaching is one way of maximising the socio-cultural relevance of science education for enhanced learners' performance. The epistemological differences however between the nature of science (NOS) and nature of indigenous knowledge (NOIK) constitute a major challenge for an inclusive…

  18. Classroom sound can be used to classify teaching practices in college science courses.

    PubMed

    Owens, Melinda T; Seidel, Shannon B; Wong, Mike; Bejines, Travis E; Lietz, Susanne; Perez, Joseph R; Sit, Shangheng; Subedar, Zahur-Saleh; Acker, Gigi N; Akana, Susan F; Balukjian, Brad; Benton, Hilary P; Blair, J R; Boaz, Segal M; Boyer, Katharyn E; Bram, Jason B; Burrus, Laura W; Byrd, Dana T; Caporale, Natalia; Carpenter, Edward J; Chan, Yee-Hung Mark; Chen, Lily; Chovnick, Amy; Chu, Diana S; Clarkson, Bryan K; Cooper, Sara E; Creech, Catherine; Crow, Karen D; de la Torre, José R; Denetclaw, Wilfred F; Duncan, Kathleen E; Edwards, Amy S; Erickson, Karen L; Fuse, Megumi; Gorga, Joseph J; Govindan, Brinda; Green, L Jeanette; Hankamp, Paul Z; Harris, Holly E; He, Zheng-Hui; Ingalls, Stephen; Ingmire, Peter D; Jacobs, J Rebecca; Kamakea, Mark; Kimpo, Rhea R; Knight, Jonathan D; Krause, Sara K; Krueger, Lori E; Light, Terrye L; Lund, Lance; Márquez-Magaña, Leticia M; McCarthy, Briana K; McPheron, Linda J; Miller-Sims, Vanessa C; Moffatt, Christopher A; Muick, Pamela C; Nagami, Paul H; Nusse, Gloria L; Okimura, Kristine M; Pasion, Sally G; Patterson, Robert; Pennings, Pleuni S; Riggs, Blake; Romeo, Joseph; Roy, Scott W; Russo-Tait, Tatiane; Schultheis, Lisa M; Sengupta, Lakshmikanta; Small, Rachel; Spicer, Greg S; Stillman, Jonathon H; Swei, Andrea; Wade, Jennifer M; Waters, Steven B; Weinstein, Steven L; Willsie, Julia K; Wright, Diana W; Harrison, Colin D; Kelley, Loretta A; Trujillo, Gloriana; Domingo, Carmen R; Schinske, Jeffrey N; Tanner, Kimberly D

    2017-03-21

    Active-learning pedagogies have been repeatedly demonstrated to produce superior learning gains with large effect sizes compared with lecture-based pedagogies. Shifting large numbers of college science, technology, engineering, and mathematics (STEM) faculty to include any active learning in their teaching may retain and more effectively educate far more students than having a few faculty completely transform their teaching, but the extent to which STEM faculty are changing their teaching methods is unclear. Here, we describe the development and application of the machine-learning-derived algorithm Decibel Analysis for Research in Teaching (DART), which can analyze thousands of hours of STEM course audio recordings quickly, with minimal costs, and without need for human observers. DART analyzes the volume and variance of classroom recordings to predict the quantity of time spent on single voice (e.g., lecture), multiple voice (e.g., pair discussion), and no voice (e.g., clicker question thinking) activities. Applying DART to 1,486 recordings of class sessions from 67 courses, a total of 1,720 h of audio, revealed varied patterns of lecture (single voice) and nonlecture activity (multiple and no voice) use. We also found that there was significantly more use of multiple and no voice strategies in courses for STEM majors compared with courses for non-STEM majors, indicating that DART can be used to compare teaching strategies in different types of courses. Therefore, DART has the potential to systematically inventory the presence of active learning with ∼90% accuracy across thousands of courses in diverse settings with minimal effort.

  19. Classroom sound can be used to classify teaching practices in college science courses

    PubMed Central

    Seidel, Shannon B.; Wong, Mike; Bejines, Travis E.; Lietz, Susanne; Perez, Joseph R.; Sit, Shangheng; Subedar, Zahur-Saleh; Acker, Gigi N.; Akana, Susan F.; Balukjian, Brad; Benton, Hilary P.; Blair, J. R.; Boaz, Segal M.; Boyer, Katharyn E.; Bram, Jason B.; Burrus, Laura W.; Byrd, Dana T.; Caporale, Natalia; Carpenter, Edward J.; Chan, Yee-Hung Mark; Chen, Lily; Chovnick, Amy; Chu, Diana S.; Clarkson, Bryan K.; Cooper, Sara E.; Creech, Catherine; Crow, Karen D.; de la Torre, José R.; Denetclaw, Wilfred F.; Duncan, Kathleen E.; Edwards, Amy S.; Erickson, Karen L.; Fuse, Megumi; Gorga, Joseph J.; Govindan, Brinda; Green, L. Jeanette; Hankamp, Paul Z.; Harris, Holly E.; He, Zheng-Hui; Ingalls, Stephen; Ingmire, Peter D.; Jacobs, J. Rebecca; Kamakea, Mark; Kimpo, Rhea R.; Knight, Jonathan D.; Krause, Sara K.; Krueger, Lori E.; Light, Terrye L.; Lund, Lance; Márquez-Magaña, Leticia M.; McCarthy, Briana K.; McPheron, Linda J.; Miller-Sims, Vanessa C.; Moffatt, Christopher A.; Muick, Pamela C.; Nagami, Paul H.; Nusse, Gloria L.; Okimura, Kristine M.; Pasion, Sally G.; Patterson, Robert; Riggs, Blake; Romeo, Joseph; Roy, Scott W.; Russo-Tait, Tatiane; Schultheis, Lisa M.; Sengupta, Lakshmikanta; Small, Rachel; Spicer, Greg S.; Stillman, Jonathon H.; Swei, Andrea; Wade, Jennifer M.; Waters, Steven B.; Weinstein, Steven L.; Willsie, Julia K.; Wright, Diana W.; Harrison, Colin D.; Kelley, Loretta A.; Trujillo, Gloriana; Domingo, Carmen R.; Schinske, Jeffrey N.; Tanner, Kimberly D.

    2017-01-01

    Active-learning pedagogies have been repeatedly demonstrated to produce superior learning gains with large effect sizes compared with lecture-based pedagogies. Shifting large numbers of college science, technology, engineering, and mathematics (STEM) faculty to include any active learning in their teaching may retain and more effectively educate far more students than having a few faculty completely transform their teaching, but the extent to which STEM faculty are changing their teaching methods is unclear. Here, we describe the development and application of the machine-learning–derived algorithm Decibel Analysis for Research in Teaching (DART), which can analyze thousands of hours of STEM course audio recordings quickly, with minimal costs, and without need for human observers. DART analyzes the volume and variance of classroom recordings to predict the quantity of time spent on single voice (e.g., lecture), multiple voice (e.g., pair discussion), and no voice (e.g., clicker question thinking) activities. Applying DART to 1,486 recordings of class sessions from 67 courses, a total of 1,720 h of audio, revealed varied patterns of lecture (single voice) and nonlecture activity (multiple and no voice) use. We also found that there was significantly more use of multiple and no voice strategies in courses for STEM majors compared with courses for non-STEM majors, indicating that DART can be used to compare teaching strategies in different types of courses. Therefore, DART has the potential to systematically inventory the presence of active learning with ∼90% accuracy across thousands of courses in diverse settings with minimal effort. PMID:28265087

  20. Understanding primary school science teachers' pedagogical content knowledge: The case of teaching global warming

    NASA Astrophysics Data System (ADS)

    Chordnork, Boonliang; Yuenyong, Chokchai

    2018-01-01

    This aim of this research was to investigate primary school science teachers understanding and teaching practice as well as the influence on teaching and learning a topic like global warming. The participants were four primary science teachers, who were not graduated in science education. Methodology was the case study method, which was under the qualitative research regarded from interpretive paradigm. Data were collected by openended questionnaire, semi-structure interview, and document colleting. The questionnaire examined teachers' background, teachers' understanding of problems and threats of science teaching, desiring of development their PCK, sharing the teaching approaches, and their ideas of strength and weakness. a semi-structured interview was conducted based on the approach for capturing PCK of Loughran [23] content representation (CoRe). And, the document was collected to clarify what evidence which was invented to effect on students' learning. These document included lesson plan, students' task, and painting about global warming, science projects, the picture of activities of science learning, the exercise and test. Data analysis employed multiple approach of evidence looking an issue from each primary science teachers and used triangulation method to analyze the data with aiming to make meaning of teachers' representation of teaching practice. These included descriptive statistics, CoRe interpretation, and document analysis. The results show that teachers had misunderstanding of science teaching practice and they has articulated the pedagogical content knowledge in terms of assessment, goal of teaching and linking to the context of socio cultural. In contrast, knowledge and belief of curriculum, students' understanding of content global warming, and strategies of teaching were articulated indistinct by non-graduate science teacher. Constructing opportunities for personal development, the curiosity of the student learning center, and linking context

  1. A Survey of Science Teaching in the Secondary Schools of New Jersey 1981-82.

    ERIC Educational Resources Information Center

    Sousa, David A.; And Others

    Questionnaires were sent to 382 public and non-public New Jersey secondary schools to determine the status of science teaching during 1981-1982. Survey results (with 55% response) are reported for general information (staffing, certification, teaching duties, and others), supervisory personnel, subject matter organization, textbooks used, second…

  2. A Comparison of Didactic and Inquiry Teaching Methods in a Rural Community College Earth Science Course

    NASA Astrophysics Data System (ADS)

    Beam, Margery Elizabeth

    The combination of increasing enrollment and the importance of providing transfer students a solid foundation in science calls for science faculty to evaluate teaching methods in rural community colleges. The purpose of this study was to examine and compare the effectiveness of two teaching methods, inquiry teaching methods and didactic teaching methods, applied in a rural community college earth science course. Two groups of students were taught the same content via inquiry and didactic teaching methods. Analysis of quantitative data included a non-parametric ranking statistical testing method in which the difference between the rankings and the median of the post-test scores was analyzed for significance. Results indicated there was not a significant statistical difference between the teaching methods for the group of students participating in the research. The practical and educational significance of this study provides valuable perspectives on teaching methods and student learning styles in rural community colleges.

  3. Teaching Biotechnology through Case Studies--Can We Improve Higher Order Thinking Skills of Nonscience Majors?

    ERIC Educational Resources Information Center

    Dori, Yehudit J.; Tal, Revital T.; Tsaushu, Masha

    2003-01-01

    Teaching nonscience majors topics in biotechnology through case studies is the focus of this research. Our "Biotechnology, Environment, and Related Issues" module, developed within the "Science for All" framework, is aimed at elevating the level of students' scientific and technological literacy and their higher order thinking…

  4. The concept of nature in Islamic science teaching

    NASA Astrophysics Data System (ADS)

    Zarman, Wendi

    2016-02-01

    Science teaching is basically value laden activities. One of the values tells that science is not related to any religion. This secular value is reflected to science teaching in many places, including religious country like Indonesia. However, we argue that in Indonesia science teaching should not be secular as in the Western country since one of the basic aim of National Education according to the Indonesian constitution Undang-Undang Dasar 1945, is to inculcate faith and god-fearing to One God Almighty. As we know, Indonesia is a Moslem country and has many Islamic schools in it too. Thus, it is important to design a science teaching framework base on Islamic teaching to fulfill the basic aim of National Education This paper discusses concept of nature, the key term in science, based on Islamic view that may used as a framework to develop Islamic science teaching. In Islam, science has a strong relation to religion since nature reflects the existence of the Creator. This concept is derived from the analysis of several verses from Qur'an as the main source of Islamic teaching. There are several principle can be derived from this analysis. Firstly, visible world is not the only world, but there is also the unseen world. Secondly, the nature is not merely matter that doesn't have any sacred value, but it is the indication or symbol of God existence and His Nature. Thirdly, The Qur'an and the nature are both Books of Allah that contain messages of Him, so they are complementary to each other

  5. A longitudinal investigation of the preservice science teachers' beliefs about science teaching during a science teacher training programme

    NASA Astrophysics Data System (ADS)

    Buldur, Serkan

    2017-01-01

    The aim of this longitudinal study was to investigate the changes in preservice science teachers' beliefs about science teaching during a science teacher training programme. The study was designed as a panel study, and the data were collected from the same participants at the end of each academic year during a four-year period. The participants were composed of 76 preservice teachers, and the DASTT-C was used as the data collection tool. As a result of the study, it was determined that the students had conventional teaching beliefs after the first years of the teacher training programme. Moreover, the mental teaching styles of preservice teachers about the science teaching were found to undergo changes throughout their undergraduate education. Participants' beliefs about conventional teaching started to change, especially after they first took a science method course in their third year and their beliefs shifted towards student-centred teaching. Implications for science teacher training programmes were also addressed.

  6. Using NASA Space Imaging Technology to Teach Earth and Sun Topics

    NASA Astrophysics Data System (ADS)

    Verner, E.; Bruhweiler, F. C.; Long, T.

    2011-12-01

    We teach an experimental college-level course, directed toward elementary education majors, emphasizing "hands-on" activities that can be easily applied to the elementary classroom. This course, Physics 240: "The Sun-Earth Connection" includes various ways to study selected topics in physics, earth science, and basic astronomy. Our lesson plans and EPO materials make extensive use of NASA imagery and cover topics about magnetism, the solar photospheric, chromospheric, coronal spectra, as well as earth science and climate. In addition we are developing and will cover topics on ecosystem structure, biomass and water on Earth. We strive to free the non-science undergraduate from the "fear of science" and replace it with the excitement of science such that these future teachers will carry this excitement to their future students. Hands-on experiments, computer simulations, analysis of real NASA data, and vigorous seminar discussions are blended in an inquiry-driven curriculum to instill confident understanding of basic physical science and modern, effective methods for teaching it. The course also demonstrates ways how scientific thinking and hands-on activities could be implemented in the classroom. We have designed this course to provide the non-science student a confident basic understanding of physical science and modern, effective methods for teaching it. Most of topics were selected using National Science Standards and National Mathematics Standards that are addressed in grades K-8. The course focuses on helping education majors: 1) Build knowledge of scientific concepts and processes; 2) Understand the measurable attributes of objects and the units and methods of measurements; 3) Conduct data analysis (collecting, organizing, presenting scientific data, and to predict the result); 4) Use hands-on approaches to teach science; 5) Be familiar with Internet science teaching resources. Here we share our experiences and challenges we face while teaching this course.

  7. Science learning and teaching in a Creole-speaking environment

    NASA Astrophysics Data System (ADS)

    Lodge, Wilton

    2017-09-01

    The focus of this response to Charity Hudley and Christine Mallinson's article, `"Its worth our time": A model of culturally and linguistically responsive professional development for K-12 STEM educators', is to underpin a pedagogy that encourages and provides opportunities for the use of non-standard language in the description and practice of science. I discuss this within the context of Jamaica and provide an alternative way of science teaching, one which promotes Jamaican Creole as a mode of instruction for classroom talk and printed material.

  8. How to Justify Teaching False Science

    ERIC Educational Resources Information Center

    Slater, Matthew H.

    2008-01-01

    We often knowingly teach false science. Such a practice conflicts with a prima facie pedagogical value placed on teaching only what is true. I argue that only a partial dissolution of the conflict is possible: the proper aim of instruction in science is not to provide an armory of facts about what things the world contains, how they interact, and…

  9. Exploring the Place of Exemplary Science Teaching. This Year in School Science 1993.

    ERIC Educational Resources Information Center

    Haley-Oliphant, Ann E., Ed.

    Exemplary science teaching is an experience that fosters wonder, excitement, and risk-taking. This book presents essays which attempt to describe the culture of classrooms of exemplary science teachers. Chapter titles are: "Exploring the Place of Exemplary Science Teaching" (Ann E. Haley-Oliphant); "The Voices of Exemplary Science Teachers" (Ann…

  10. Views from the Chalkface: Values of Teaching Nature of Science in Hong Kong

    ERIC Educational Resources Information Center

    Wan, Zhi Hong; Wong, Siu Ling

    2016-01-01

    Although the goal of developing school students' understanding of nature of science (NOS) has long been advocated, there is still a lack of research that focuses on probing how science teachers, a kind of major stakeholder in NOS instruction, perceive the values of teaching NOS. Through semi-structured interviews, this study investigated the views…

  11. Social justice pedagogies and scientific knowledge: Remaking citizenship in the non-science classroom

    NASA Astrophysics Data System (ADS)

    Lehr, Jane L.

    This dissertation contributes to efforts to rethink the meanings of democracy, scientific literacy, and non-scientist citizenship in the United States. Beginning with questions that emerged from action research and exploring the socio-political forces that shape educational practices, it shows why non-science educators who teach for social justice must first recognize formal science education as a primary site of training for (future) non-scientist citizens and then prepare to intervene in the dominant model of scientifically literate citizenship offered by formal science education. This model of citizenship defines (and limits) appropriate behavior for non-scientist citizens as acquiescing to the authority of science and the state by actively demarcating science from non-science, experts from non-experts, and the rational from the irrational. To question scientific authority is to be scientifically illiterate. This vision of 'acquiescent democracy' seeks to end challenges to the authority of science and the state by ensuring that scientific knowledge is privileged in all personal and public decision-making practices, producing a situation in which it becomes natural for non-scientist citizens to enroll scientific knowledge to naturalize oppression within our schools and society. It suggests that feminist and equity-oriented science educators, by themselves, are unable or unwilling to challenge certain assumptions in the dominant model of scientifically literate citizenship. Therefore, it is the responsibility of non-science educators who teach for social justice to articulate oppositional models of non-scientist citizenship and democracy in their classrooms and to challenge the naturalized authority of scientific knowledge in all aspects of our lives. It demonstrates how research in the field of Science & Technology Studies can serve as one resource in our efforts to intervene in the dominant model of scientifically literate citizenship and to support a model of

  12. Environmental Science Literacy in Science Education, Biology and Chemistry Majors.

    ERIC Educational Resources Information Center

    Robinson, Mike; Crowther, David

    2001-01-01

    Questions whether biology majors are more environmental science literate than chemistry majors, preservice science teachers, and a general population sample of 1,492 students. Indicates that preservice science teachers are significantly more environmental science literate than chemistry majors, but not more science literate than biology majors.…

  13. A Model of Effective Teaching in Arts, Humanities, and Social Sciences

    ERIC Educational Resources Information Center

    Tahir, Khazima; Ikram, Hamid; Economos, Jennifer; Morote, Elsa-Sophia; Inserra, Albert

    2017-01-01

    The purpose of this study was to examine how graduate students with undergraduate majors in arts, humanities, and social sciences perceived individualized consideration, Student-Professor Engagement in Learning (SPEL), intellectual stimulation, and student deep learning, and how these variables predict effective teaching. A sample of 251 graduate…

  14. Innovations in College Science Teaching.

    ERIC Educational Resources Information Center

    Penick, John E., Ed.; Dunkhase, John A., Ed.

    Fifteen innovative college science programs based on survey results about perceptions of excellence in college science teaching are presented. The goals, program origins, special features of the programs, evaluations, and conclusions are described for each. Discussed are the commonalities among this collection of 15 college science programs and…

  15. The effect of teacher education level, teaching experience, and teaching behaviors on student science achievement

    NASA Astrophysics Data System (ADS)

    Zhang, Danhui

    Previous literature leaves us unanswered questions about whether teaching behaviors mediate the relationship between teacher education level and experience with student science achievement. This study examined this question with 655 students from sixth to eighth grade and their 12 science teachers. Student science achievements were measured at the beginning and end of 2006-2007 school year. Given the cluster sampling of students nested in classrooms, which are nested in teachers, a two-level multilevel model was employed to disentangle the effects from teacher-level and student-level factors. Several findings were discovered in this study. Science teachers possessing of advanced degrees in science or education significantly and positively influenced student science achievement. However, years of teaching experience in science did not directly influence student science achievement. A significant interaction was detected between teachers possessing an advanced degree in science or education and years of teaching science, which was inversely associated to student science achievement. Better teaching behaviors were also positively related to student achievement in science directly, as well as mediated the relationship between student science achievement and both teacher education and experience. Additionally, when examined separately, each teaching behavior variable (teacher engagement, classroom management, and teaching strategies) served as a significant intermediary between both teacher education and experience and student science achievement. The findings of this study are intended to provide insights into the importance of hiring and developing qualified teachers who are better able to help students achieve in science, as well as to direct the emphases of ongoing teacher inservice training.

  16. Collaborative activities for improving the quality of science teaching and learning and learning to teach science

    NASA Astrophysics Data System (ADS)

    Tobin, Kenneth

    2012-03-01

    I have been involved in research on collaborative activities for improving the quality of teaching and learning high school science. Initially the collaborative activities we researched involved the uses of coteaching and cogenerative dialogue in urban middle and high schools in Philadelphia and New York (currently I have active research sites in New York and Brisbane, Australia). The research not only transformed practices but also produced theories that informed the development of additional collaborative activities and served as interventions for research and creation of heuristics for professional development programs and teacher certification courses. The presentation describes a collage of collaborative approaches to teaching and learning science, including coteaching, cogenerative dialogue, radical listening, critical reflection, and mindful action. For each activity in the collage I provide theoretical frameworks and empirical support, ongoing research, and priorities for the road ahead. I also address methodologies used in the research, illustrating how teachers and students collaborated as researchers in multilevel investigations of teaching and learning and learning to teach that included ethnography, video analysis, and sophisticated analyses of the voice, facial expression of emotion, eye gaze, and movement of the body during classroom interactions. I trace the evolution of studies of face-to-face interactions in science classes to the current focus on emotions and physiological aspects of teaching and learning (e.g., pulse rate, pulse strength, breathing patterns) that relate to science participation and achievement.

  17. Using High Level Literacy Techniques to Teach Astronomy to Non-Science Majors

    NASA Astrophysics Data System (ADS)

    Garland, C. A.; Ratay, D. L.

    2005-12-01

    We present a discussion of an introductory-level college astronomy class which significantly relied on reading and writing assignments to deliver basic content knowledge and provide a basis for deeper analysis of the material. As opposed to the traditional problem-set method of homework, students were required to read popular articles from magazines and newspapers related to the content presented in class and then prepare responses. Responses ranged from methodological analysis to using the readings to create original science journalism. Other forms of assessment indicated that students benefitted from this type of course design. We propose that given the background of students in this type of course, the course design is better suited to engage students in the material and provides a better assessment of student achievement.

  18. Teaching science as argument: Prospective elementary teachers' knowledge

    NASA Astrophysics Data System (ADS)

    Barreto-Espino, Reizelie

    For the past two decades there has been increasing emphasis on argumentation in school science. In 2007, the National Research Council published a synthesis report that emphasizes the centrality of constructing, evaluating, and using scientific explanations. Participating in argumentation is seen as fundamental to children's science learning experiences. These new expectations increase challenges for elementary teachers since their understanding of and experiences with science are overwhelmingly inconsistent with teaching science as argument. These challenges are further amplified when dealing with prospective elementary teachers. The current study was guided by the following research questions: (1) What are the ways in which preservice elementary teachers appropriate components of "teaching science as argument" during their student teaching experience? (2) To what extent do components from prospective elementary teachers' reflections influence planning for science teaching? (3) What elements from the context influence preservice elementary teachers' attention to teaching science as argument? This study followed a multi-participant case study approach and analyses were informed by grounded theory. Three participants were selected from a larger cohort of prospective elementary teachers enrolled in an innovative Elementary Professional Development School (PDS) partnership at a large Northeast University. Cross-case analysis allowed for the development of five key assertions: (1) The presence of opportunities for interacting with phenomena and collecting first hand data helped participants increase their emphasis on evidence-based explanations. (2) Participants viewed science talks as an essential mechanism for engaging students in the construction of evidence-based explanations and as being fundamental to meaning-making. (3) Participants demonstrated attention to scientific subject matter during instruction rather than merely focusing on activities and/or inquiry

  19. Turkish preservice science teachers' socioscientific issues-based teaching practices in middle school science classrooms

    NASA Astrophysics Data System (ADS)

    Genel, Abdulkadir; Sami Topçu, Mustafa

    2016-01-01

    Background: Despite a growing body of research and curriculum reforms including socioscientific issues (SSI) across the world, how preservice science teachers (PST) or in-service science teachers can teach SSI in science classrooms needs further inquiry. Purpose: The purpose of this study is to describe the abilities of PSTs to teach SSI in middle school science classrooms, and the research question that guided the present study is: How can we characterize Turkish PSTs' SSI-based teaching practices in middle school science classrooms (ages 11-14)? Sample: In order to address the research question of this study, we explored 10 Turkish PSTs' SSI-based teaching practices in middle school science classrooms. A purposeful sampling strategy was used, thus, PSTs were specifically chosen because they were ideal candidates to teach SSI and to integrate SSI into the science curricula since they were seniors in the science education program who had to take the field experience courses. Design and method: The participants' SSI teaching practices were characterized in light of qualitative research approach. SSI-based teaching practices were analyzed, and the transcripts of all videotape recordings were coded by two researchers. Results: The current data analysis describes Turkish PSTs' SSI-based teaching practices under five main categories: media, argumentation, SSI selection and presentation, risk analysis, and moral perspective. Most of PSTs did not use media resources in their lesson and none of them considered moral perspective in their teaching. While the risk analyses were very simple and superficial, the arguments developed in the classrooms generally remained at a simple level. PSTs did not think SSI as a central topic and discussed these issues in a very limited time and at the end of the class period. Conclusions: The findings of this study manifest the need of the reforms in science education programs. The present study provides evidence that moral, media

  20. Teaching Science through Physical Education.

    ERIC Educational Resources Information Center

    Kumar, David; Whitehurst, Michael

    1997-01-01

    Physical education can serve as a vehicle for teaching science and make student understanding of certain personal health-related science concepts meaningful. Describes activities involving the musculoskeletal system, the nervous system, and the cardiovascular system. (DKM)

  1. Teaching Science to the Gifted.

    ERIC Educational Resources Information Center

    Scher, Joyce L.

    Science teaching practices at the Long Island School for the Gifted emphasize hands-on experiments where children do the work and the teacher assists learning. This approach bypasses the reading/writing barrier that prevents some children from learning science. Many science experiments are described, including a first-grade lesson on using…

  2. Preservice Elementary Teachers' Beliefs about Science Teaching

    ERIC Educational Resources Information Center

    Yilmaz-Tuzun, Ozgul

    2008-01-01

    In this study, a Beliefs About Teaching (BAT) scale was created to examine preservice elementary science teachers' self-reported comfort level with both traditional and reform-based teaching methods, assessment techniques, classroom management techniques, and science content. Participants included 166 preservice teachers from three different US…

  3. Improving Early Career Science Teachers' Ability to Teach Space Science

    NASA Astrophysics Data System (ADS)

    Schultz, G. R.; Slater, T. F.; Wierman, T.; Erickson, J. G.; Mendez, B. J.

    2012-12-01

    The GEMS Space Science Sequence is a high quality, hands-on curriculum for elementary and middle schools, created by a national team of astronomers and science educators with NASA funding and support. The standards-aligned curriculum includes 24 class sessions for upper elementary grades targeting the scale and nature of Earth's, shape, motion and gravity, and 36 class sessions for middle school grades focusing on the interactions between our Sun and Earth and the nature of the solar system and beyond. These materials feature extensive teacher support materials which results in pre-test to post-test content gains for students averaging 22%. Despite the materials being highly successful, there has been a less than desired uptake by teachers in using these materials, largely due to a lack of professional development training. Responding to the need to improve the quantity and quality of space science education, a collaborative of space scientists and science educators - from the University of California, Berkeley's Lawrence Hall of Science (LHS) and Center for Science Education at the Space Sciences Laboratory (CSE@SSL), the Astronomical Society of the Pacific (ASP), the University of Wyoming, and the CAPER Center for Astronomy & Physics Education - experimented with a unique professional development model focused on helping master teachers work closely with pre-service teachers during their student teaching internship field experience. Research on the exodus of young teachers from the teaching profession clearly demonstrates that early career teachers often leave teaching because of a lack of mentoring support and classroom ready curriculum materials. The Advancing Mentor and Novice Teachers in Space Science (AMANTISS) team first identified master teachers who supervise novice, student teachers in middle school, and trained these master teachers to use the GEMS Space Science Sequence for Grades 6-8. Then, these master teachers were mentored in how to coach their

  4. Teaching Dissent and Persuasion

    ERIC Educational Resources Information Center

    Carson, Kathleen M.; Hodgen, Brian; Glaser, Rainer E.

    2006-01-01

    Teaching philosophy should be based on the desired outcome of the teaching. In the case of science education, the guiding principle for a teaching philosophy should start with the desire to help students understand and use science, regardless of their major or profession. To effectively teach students how to understand science, one must include…

  5. Teaching Science through Story

    ERIC Educational Resources Information Center

    Horton, Jessica

    2013-01-01

    Children find comfort in stories. They are familiar, accessible and entertaining. By teaching science through narratives, we can provide that same comfort and access to scientific content to children of all ages. In this article, I will discuss how, through the use of narratives in science instruction, we can provide students with a deeper…

  6. Validating the Astronomy Diagnostics Test for Undergraduate Non-Science Majors

    NASA Astrophysics Data System (ADS)

    Slater, T. F.; Hufnagel, B.; Adams, J. P.

    1999-05-01

    The Astronomy Diagnostics Test (ADT) is a standard diagnostic test for undergraduate non-science majors taking introductory astronomy. Serving to compare the effectiveness of various instructional interventions, the ADT has been developed and field-tested over the last year by a multi-institutional team, known as the Collaboration for Astronomy Education Research (CAER). The team includes Jeff Adams, Rebecca Lindell Adrian, Christine Brick, Gina Brissenden, Grace Deming, Beth Hufnagel, Tim Slater, and Michael Zeilik, among others. The need for a nationally normed, valid, and reliable assessment instrument in astronomy has been articulated in a wide variety of forums. This need results from the simultaneous occurrence of several important phenomena over the last decade including: the inclusion of astronomy concepts in national science education standards; documentation of widespread astronomical misconceptions; the influence of the Force Concept Inventory guiding reform in physics; and the call for university faculty to document improvements in instruction. In a triangulated effort to validate the ADT for widespread use, the researchers used on a three-phase strategy. In this context, "validity" means that the ADT measures what it purports to measure. In other words, do students give the correct answer for the scientifically correct reasons or, alternatively, do students give the correct answer even though they have misunderstandings about the phenomena being tested? These three phases were: (1) conduct statistical item-analysis on each test question for a large and diverse student population (n=2000 from 21 institutions); (2) conduct 60 clinical student interviews using the test questions as the script; and (3) conduct an inductive analysis of 30 student supplied written responses to ADT questions posed without the multiple-choices provided. The ADT and its supporting comparative database is available at URL: http://solar.physics.montana.edu/aae/adt/. This research

  7. Crossing borders: High school science teachers learning to teach the specialized language of science

    NASA Astrophysics Data System (ADS)

    Patrick, Jennifer Drake

    The highly specialized language of science is both challenging and alienating to adolescent readers. This study investigated how secondary science teachers learn to teach the specialized language of science in their classrooms. Three research questions guided this study: (a) what do science teachers know about teaching reading in science? (b) what understanding about the unique language demands of science reading do they construct through professional development? and (c) how do they integrate what they have learned about these specialized features of science language into their teaching practices? This study investigated the experience of seven secondary science teachers as they participated in a professional development program designed to teach them about the specialized language of science. Data sources included participant interviews, audio-taped professional development sessions, field notes from classroom observations, and a prior knowledge survey. Results from this study suggest that science teachers (a) were excited to learn about disciplinary reading practices, (b) developed an emergent awareness of the specialized features of science language and the various genres of science writing, and (c) recognized that the challenges of science reading goes beyond vocabulary. These teachers' efforts to understand and address the language of science in their teaching practices were undermined by their lack of basic knowledge of grammar, availability of time and resources, their prior knowledge and experiences, existing curriculum, and school structure. This study contributes to our understanding of how secondary science teachers learn about disciplinary literacy and apply that knowledge in their classroom instruction. It has important implications for literacy educators and science educators who are interested in using language and literacy practices in the service of science teaching and learning. (Full text of this dissertation may be available via the University

  8. Teaching professionalism in science courses: anatomy to zoology.

    PubMed

    Macpherson, Cheryl C

    2012-02-01

    Medical professionalism is reflected in attitudes, behaviors, character, and standards of practice. It is embodied by physicians who fulfill their duties to patients and uphold societies' trust in medicine. Professionalism requires familiarity with the ethical codes and standards established by international, governmental, institutional, or professional organizations. It also requires becoming aware of and responsive to societal controversies. Scientific uncertainty may be used to teach aspects of professionalism in science courses. Uncertainty about the science behind, and the health impacts of, climate change is one example explored herein that may be used to teach both professionalism and science. Many medical curricula provide students with information about professionalism and create opportunities for students to reflect upon and strengthen their individually evolving levels of professionalism. Faculties in basic sciences are rarely called upon to teach professionalism or deepen medical students understanding of professional standards, competencies, and ethical codes. However they have the knowledge and experience to develop goals, learning objectives, and topics relevant to professionalism within their own disciplines and medical curricula. Their dedication to, and passion for, science will support basic science faculties in designing innovative and effective approaches to teaching professionalism. This paper explores topics and formats that scientists may find useful in teaching professional attitudes, skills, and competencies in their medical curriculum. It highlights goals and learning objectives associated with teaching medical professionalism in the basic sciences. Copyright © 2011. Published by Elsevier B.V.

  9. Hot Topics in Science Teaching

    ERIC Educational Resources Information Center

    Ediger, Marlow

    2018-01-01

    There are vital topics in science teaching and learning which are mentioned frequently in the literature. Specialists advocate their importance in the curriculum as well as science teachers stress their saliency. Inservice education might well assist new and veteran teachers in knowledge and skills. The very best science lessons and units of…

  10. Using Action-Mapping to Design a Non-Majors Neuroeconomics Course to Teach First-Year Collegiate Skills

    PubMed Central

    Franssen, Catherine L.; Lowry, George S.; Franssen, R. Adam

    2017-01-01

    With its ability to address questions about how decisions are made and why, neuroeconomics is an excellent topic of study for college students at a variety of levels. In this paper we detail a neuroeconomics course specifically modified for undecided First-year students. One particularly daunting challenge was defining clear outcomes and delivering instruction at an appropriate level. We used Action-Mapping to achieve the course objectives of teaching collegiate skills applicable to any path of study or career while also delivering content suitable for credits in both a social science and natural science. PMID:29371842

  11. Pre-service elementary science teaching self-efficacy and teaching practices: A mixed-methods, dual-phase, embedded case study

    NASA Astrophysics Data System (ADS)

    Sangueza, Cheryl Ramirez

    This mixed-method, dual-phase, embedded-case study employed the Social Cognitive Theory and the construct of self-efficacy to examine the contributors to science teaching self-efficacy and science teaching practices across different levels of efficacy in six pre-service elementary teachers during their science methods course and student teaching experiences. Data sources included the Science Teaching Efficacy Belief Instrument (STEBI-B) for pre-service teachers, questionnaires, journals, reflections, student teaching lesson observations, and lesson debriefing notes. Results from the STEBI-B show that all participants measured an increase in efficacy throughout the study. The ANOVA analysis of the STEBI-B revealed a statistically significant increase in level of efficacy during methods course, student teaching, and from the beginning of the study to the end. Of interest in this study was the examination of the participants' science teaching practices across different levels of efficacy. Results of this analysis revealed how the pre-service elementary teachers in this study contextualized their experiences in learning to teach science and its influences on their science teaching practices. Key implications involves the value in exploring how pre-service teachers interpret their learning to teach experiences and how their interpretations influence the development of their science teaching practices.

  12. Learning to teach science in a professional development school program

    NASA Astrophysics Data System (ADS)

    Hildreth, David P.

    1997-09-01

    The purpose of this study was to determine the effects of learning to teach science in a Professional Development School (PDS) program on university elementary education preservice teachers' (1) attitudes toward science, (2) science process skills achievement, and (3) sense of science teaching efficacy. Data were collected and analyzed using both quantitative and qualitative methods. Quantitative data were collected using the Science Attitude Inventory (North Carolina Math and Science Education Network (1994), the Test of Integrated Process Skills, TIPS, (Dillashaw & Okey, 1980), and the Science Teaching Efficacy Belief Instrument, STEBI, form B (Enochs & Riggs, 1990). A pretest posttest research design was used for the attitude and process skills constructs. These results were analyzed using paired t test procedures. A pre-experimental group comparison group research design was used for the efficacy construct. Results from this comparison were analyzed using unpaired t test procedures. Qualitative data were collected through students' responses to open-ended questionnaires, narrative interviews, journal entries, small messages, and unsolicited conversations. These data were analyzed via pattern analysis. Posttest scores were significantly higher than pretests scores on both the Science Attitude Inventory and the TIPS. This indicated that students had improved attitudes toward science and science teaching and higher process skills achievement after three semesters in the science-focused PDS program. Scores on the STEBI were significantly higher for students in the pre-experimental group when compared to students in the comparison group. This indicates that students in the science-focused PDS program possessed more efficacious beliefs about science teaching than did the comparison group. Quantitative data were supported by analysis of qualitative data. Implications from this study point to the effectiveness of learning to teach science in a science-focused PDS

  13. Florida and Puerto Rico Secondary Science Teachers' Knowledge and Teaching of Climate Change Science

    ERIC Educational Resources Information Center

    Herman, Benjamin C.; Feldman, Allan; Vernaza-Hernandez, Vanessa

    2017-01-01

    Misconceptions about climate change science are pervasive among the US public. This study investigated the possibility that these misconceptions may be reflective of science teachers' knowledge and teaching of climate change science. Florida and Puerto Rico secondary science teachers who claim to teach extensively about climate change were…

  14. Turkish Preservice Elementary Science Teachers' Conceptions of Learning Science and Science Teaching Efficacy Beliefs: Is There a Relationship?

    ERIC Educational Resources Information Center

    Bahcivan, Eralp; Kapucu, Serkan

    2014-01-01

    This study has been conducted to investigate conceptions of learning science (COLS) and personal science teaching efficacy belief (PSTE) of Turkish preservice elementary science teachers (PSTs) and to explore the relationship between these variables. Two instruments COLS questionnaire and PSTE subscale of Science Teaching Efficacy Beliefs…

  15. Teaching science for conceptual change: Toward a proposed taxonomy of diagnostic teaching strategies to gauge students' personal science conceptions

    NASA Astrophysics Data System (ADS)

    Shope, Richard Edwin, III

    Science instruction aims to ensure that students properly construct scientific knowledge so that each individual may play a role as a science literate citizen or as part of the science workforce (National Research Council, 1996, 2000). Students enter the classroom with a wide range of personal conceptions regarding science phenomena, often at variance with prevailing scientific views (Duschl, Hamilton, & Grandy, 1992; Hewson, 1992). The extensive misconceptions research literature emphasizes the importance of diagnosing students' initial understandings in order to gauge the accuracy and depth of what each student knows prior to instruction and then to use that information to adapt the teaching to address student needs. (Ausubel, 1968; Carey, 2000; Driver et al., 1985; Karplus & Thier, 1967; Mintzes, Wandersee, & Novak, 1998; Osborne & Freyberg, 1985; Project 2061, 1993; Strike & Posner, 1982, 1992; Vygotsky, 1934/1987). To gain such insight, teachers diagnose not only the content of the students' personal conceptions but also the thinking processes that produced them (Strike and Posner, 1992). Indeed, when teachers design opportunities for students to express their understanding, there is strong evidence that such diagnostic assessment also enhances science teaching and learning (Black & William, 1998). The functional knowledge of effective science teaching practice resides in the professional practitioners at the front lines---the science teachers in the classroom. Nevertheless, how teachers actually engage in the practice of diagnosis is not well documented. To help fill this gap, the researcher conducted a study of 16 sixth grade science classrooms in four Los Angeles area middle schools. Diagnostic teaching strategies were observed in action and then followed up by interviews with each teacher. Results showed that teachers use strategies that vary by the complexity of active student involvement, including pretests, strategic questions, interactive discussion

  16. The Impact of Transformational Leadership, Experiential Learning, and Reflective Journaling on the Conservation Ethic of Tertiary-Level Non-Science Majors

    ERIC Educational Resources Information Center

    Reynolds, Bradley Robert

    2013-01-01

    The impact of transformational leadership, experiential learning, and reflective journaling on the conservation ethic of non-science majors in a general education survey course was investigated. The main research questions were: (1) Is the Conservation of Biodiversity professor a transformational leader? (2) Is there a difference in the…

  17. In-Service Turkish Elementary and Science Teachers' Attitudes toward Science and Science Teaching: A Sample from Usak Province

    ERIC Educational Resources Information Center

    Turkmen, Lutfullah

    2013-01-01

    The purpose of this study is to reveal Turkish elementary teachers' and science teachers' attitudes toward science and science teaching. The sample of the study, 138 in-service elementary level science teachers from a province of Turkey, was selected by a clustered sampling method. The Science Teaching Attitude Scale-II was employed to measure the…

  18. Hidden Treasures for Science Teaching: United States Patents.

    ERIC Educational Resources Information Center

    Anderson, Norman D.

    United States patents are a source of historical information with many implications for science teaching. Using patents as science teaching devices has been largely ignored by science educators. Some of these devices can be easily modified for use in today's classrooms; in addition, patents serve as great examples of how our knowledge of science…

  19. Enhancing Self-Efficacy in Elementary Science Teaching with Professional Learning Communities

    ERIC Educational Resources Information Center

    Mintzes, Joel J.; Marcum, Bev; Messerschmidt-Yates, Christl; Mark, Andrew

    2013-01-01

    Emerging from Bandura's Social Learning Theory, this study of in-service elementary school teachers examined the effects of sustained Professional Learning Communities (PLCs) on self-efficacy in science teaching. Based on mixed research methods, and a non-equivalent control group experimental design, the investigation explored changes in…

  20. Developing Preservice Teachers' Knowledge of Science Teaching Through Video Clubs

    NASA Astrophysics Data System (ADS)

    Johnson, Heather J.; Cotterman, Michelle E.

    2015-06-01

    Though an adequate understanding of content is a natural prerequisite of teaching (Carlsen in Journal of Research in Science Teaching 30:471-481, 1993), teachers also need to be able to interpret content in ways that facilitate student learning. How to best support novice teachers in developing and refining their content knowledge for teaching is a crucial and ongoing question for preservice teacher educators. Recently, video clubs are being explored as potential contexts for teacher learning (Barnhart & van Es in Teaching and Teacher Education 45:83-93, 2015; Sherin & Han in Teaching and Teacher Education 20:163-183, 2004). We hypothesized that pairing video clubs with student teaching experiences would provide a forum for preservice teachers to discuss issues relevant to their professional trajectory through exposure to models of peer teaching and opportunities to reflect on practice. In this study, we explored how secondary science preservice teachers used video club to restructure their overall science knowledge into science knowledge for teaching. Our findings suggest that video clubs allowed preservice teachers to access and leverage student thinking and instructional resources to deepen their understanding of science content and trajectories for science learning.

  1. The Context of Demarcation in Nature of Science Teaching: The Case of Astrology

    NASA Astrophysics Data System (ADS)

    Turgut, Halil

    2011-05-01

    The aim of developing students' understanding of the nature of science [NOS] has been considered an important aspect of science education. However, the results of previous research indicate that students of various ages and even teachers possess both inaccurate and inappropriate views of the NOS. Such a failure has been explained by the view that perceptions about the NOS are well assimilated into mental structures and resistant to change. Further, the popularization of pseudoscience by the media and the assimilation of pseudoscience into previously established scientific fields have been presented as possible reasons for erroneous popular perceptions of science. Any teaching intervention designed to teach the NOS should first provoke individuals to expose their current ideas in order to provide them the chance to revise or replace these conceptual frameworks. Based on these assumptions, the aim of this study was to determine whether a teaching context based on the issue of demarcation would provide a suitable opportunity for exposing and further developing the NOS understandings of individuals enrolled in a teacher education course. Results indicate that a learning intervention based on the issue of demarcation of science from pseudoscience (in the specific case of astrology) proved an effective instructional strategy, which a majority of teacher candidates claimed to plan to use in their future teachings.

  2. Pre-Service Science Teachers' Epistemological Beliefs and Teaching Reforms in Tanzania

    ERIC Educational Resources Information Center

    Tarmo, Albert

    2016-01-01

    In an effort to understand why recent initiatives to promote learner-centred pedagogy in science teaching made a little change in the actual teaching practices of science teachers, this study explored pre-service science teachers' beliefs about science knowledge and their teaching practices. Six pre-service science teachers were interviewed to…

  3. A Model for Cooperative Student Teaching Involving a Nearby Majority Black University and a Nearby Majority White University.

    ERIC Educational Resources Information Center

    Mercer, Walter A.

    Major features of the cooperative student teaching model include 1) a pattern of student teaching assignments within the school system which would provide for proportional inclusion of prospective teachers--from the nearby majority black university and the nearby majority white university--to each school serving as a student teaching facility; 2)…

  4. The Role of Informal Support Networks in Teaching the Nature of Science

    NASA Astrophysics Data System (ADS)

    Herman, Benjamin C.; Olson, Joanne K.; Clough, Michael P.

    2017-06-01

    This study reports the participation of 13 secondary science teachers in informal support networks and how that participation was associated with their nature of science (NOS) teaching practices 2 to 5 years after having graduated from the same science teacher education program. The nine teachers who participated in informal support networks taught the NOS at high/medium levels, while the four non-participating teachers taught the NOS at low levels. The nine high/medium NOS implementation teachers credited the informal support networks for maintaining/heightening their sense of responsibility for teaching NOS and for helping them navigate institutional constraints that impede effective NOS instruction. Several high/medium NOS instruction implementers initially struggled to autonomously frame and resolve the complexities experienced in schools and thus drew from the support networks to engage in more sophisticated forms of teacher decision-making. In contrast, the NOS pedagogical decisions of the four teachers not participating in support networks were governed primarily by the expectations and constraints experienced in their schools. Implications of this study include the need for reconsidering the structure of teacher mentorship programs to ensure they do not promote archaic science teaching practices that are at odds with reform efforts in science education.

  5. Science school and culture school: improving the efficiency of high school science teaching in a system of mass science education.

    PubMed

    Charlton, Bruce G

    2006-01-01

    a more rounded and social individual. For this to happen depends upon a recognition that science is relatively difficult to teach, requiring non-spontaneous and un-natural cognitive processes from students. Furthermore, it is much easier to learn science when young--if science is missed at school, it can be difficult or impossible to make up the ground later. Modern schools currently try to do too many things, and end-up doing none very well: the one big thing all schools should do for all students is to teach them science. For this to happen, schools need to specialize in their core function.

  6. Teaching Efficacy of Universiti Putra Malaysia Science Student Teachers

    ERIC Educational Resources Information Center

    Bakar, Abd. Rahim; Konting, Mohd. Majid; Jamian, Rashid; Lyndon, Novel

    2008-01-01

    The objective of the study was to access teaching efficacy of Universiti Putra Malaysia Science student teachers. The specific objectives were to determine teaching efficacy of Science student teachers in terms of student engagement; instructional strategies; classroom management and teaching with computers in classroom; their satisfaction with…

  7. Early childhood teachers' self-efficacy toward teaching science: Outcomes of professional development

    NASA Astrophysics Data System (ADS)

    Clark, Sarah

    The teaching of science in the early childhood classrooms has slowly been decreasing. As the years have passed, the subject of science has been put on the backburner while mathematics and language arts have taken center stage in the educational system. Early childhood teachers need to find ways to integrate science with other subjects in order to ensure children are receiving a well-rounded and full education. The purpose of this study was to determine the effectiveness of professional development on teachers' efficacy in teaching science. Volunteer teachers completed the Weisgram and Bigler scale (TWBS) pre and post training, in order to determine their self-efficacy toward teaching science, they also completed pre- and post- concept maps about their knowledge of teaching science, and a demographic questionnaire. Findings indicate the training provided was effective in increasing teachers' knowledge of teaching science. Teachers who had an increase in science teaching knowledge were also found to feel more efficacious about teaching science after completing the training and an academic year of implementing science lessons in their classrooms. There was not a relationship between teacher demographics and their science-teaching efficacy. This means that the demographics of participants in this study were not influential on teachers' efficacy, but professional development workshops enabled teachers to gain more knowledge about teaching as well as increase their efficacy about teaching science.

  8. Epistemological Beliefs and Practices of Science Faculty with Education Specialties: Combining Teaching Scholarship and Interdisciplinarity

    NASA Astrophysics Data System (ADS)

    Addy, Tracie Marcella

    2011-12-01

    departmental emphasis on teaching scholarship. These findings support the epistemological beliefs of this cohort of SFES as congruent with the recommendations given by the National Research Council on educational reform. Further research is needed to understand the teaching beliefs and practices of SFES compared their non-SFES colleagues, the departmental climates of SFES, the influence of the classroom practices of SFES on student learning and achievement in science, and SFES belief systems within particular STEM disciplines. SFES may play a crucial role at enacting reform-based teaching within undergraduate science courses across our nation, and address the needs of STEM education brought forward by national calls to action.

  9. Caught in the Balance: An Organizational Analysis of Science Teaching in Schools with Elementary Science Specialists

    ERIC Educational Resources Information Center

    Marco-Bujosa, Lisa M.; Levy, Abigail Jurist

    2016-01-01

    Elementary schools are under increasing pressure to teach science and teach it well; yet, research documents that classroom teachers must overcome numerous personal and school-based challenges to teach science effectively at this level, such as access to materials and inadequate instructional time. The elementary science specialist model…

  10. The ontology of science teaching in the neoliberal era

    NASA Astrophysics Data System (ADS)

    Sharma, Ajay

    2017-12-01

    Because of ever stricter standards of accountability, science teachers are under an increasing and unrelenting pressure to demonstrate the effects of their teaching on student learning. Econometric perspectives of teacher quality have become normative in assessment of teachers' work for accountability purposes. These perspectives seek to normalize some key ontological assumptions about teachers and teaching, and thus play an important role in shaping our understanding of the work science teachers do as teachers in their classrooms. In this conceptual paper I examine the ontology of science teaching as embedded in econometric perspectives of teacher quality. Based on Foucault's articulation of neoliberalism as a discourse of governmentality in his `The Birth of Biopolitics' lectures, I suggest that this ontology corresponds well with the strong and substantivist ontology of work under neoliberalism, and thus could potentially be seen as reflection of the influence of neoliberal ideas in education. Implications of the mainstreaming of an ontology of teaching that is compatible with neoliberalism can be seen in increasing marketization of teaching, `teaching evangelism', and impoverished notions of learning and teaching. A shift of focus from teacher quality to quality of teaching and building conceptual models of teaching based on relational ontologies deserve to be explored as important steps in preserving critical and socially just conceptions of science teaching in neoliberal times.

  11. Using Primary Literature to Teach Science Literacy to Introductory Biology Students

    PubMed Central

    Krontiris-Litowitz, Johanna

    2013-01-01

    Undergraduate students struggle to read the scientific literature and educators have suggested that this may reflect deficiencies in their science literacy skills. In this two-year study we develop and test a strategy for using the scientific literature to teach science literacy skills to novice life science majors. The first year of the project served as a preliminary investigation in which we evaluated student science literacy skills, created a set of science literacy learning objectives aligned with Bloom’s taxonomy, and developed a set of homework assignments that used peer-reviewed articles to teach science literacy. In the second year of the project the effectiveness of the assignments and the learning objectives were evaluated. Summative student learning was evaluated in the second year on a final exam. The mean score was 83.5% (±20.3%) and there were significant learning gains (p < 0.05) in seven of nine of science literacy skills. Project data indicated that even though students achieved course-targeted lower-order science literacy objectives, many were deficient in higher-order literacy skills. Results of this project suggest that building scientific literacy is a continuing process which begins in first-year science courses with a set of fundamental skills that can serve the progressive development of literacy skills throughout the undergraduate curriculum. PMID:23858355

  12. On Gene Concepts and Teaching Genetics: Episodes from Classical Genetics

    NASA Astrophysics Data System (ADS)

    Burian, Richard M.

    2013-02-01

    This paper addresses the teaching of advanced high school courses or undergraduate courses for non-biology majors about genetics or history of genetics. It will probably be difficult to take the approach described here in a high school science course, although the general approach could help improve such courses. It would be ideal for a college course in history of genetics or a course designed to teach non-science majors how science works or the rudiments of the genetics in a way that will help them as citizens. The approach aims to teach the processes of discovery, correction, and validation by utilizing illustrative episodes from the history of genetics. The episodes are treated in way that should foster understanding of basic questions about genes, the sorts of techniques used to answer questions about the constitution and structure of genes, how they function, and what they determine, and some of the major biological disagreements that arose in dealing with these questions. The material covered here could be connected to social and political issues raised by genetics, but these connections are not surveyed here. As it is, to cover this much territory, the article is limited to four major episodes from Mendel's paper to the beginning of World War II. A sequel will deal with the molecularization of genetics and with molecular gene concepts through the Human Genome Project.

  13. Teaching and learning: Novice teachers' descriptions of their confidence to teach science content

    NASA Astrophysics Data System (ADS)

    Ford, Barbara Ann

    Statement of the problem. The problem being studied in this research is the relationship between a specific series of integrated science courses in a science teacher preparation program and the actual needs of the science teacher during the first years of teaching practice. Teachers often report that there is a disconnect between the coursework they have taken in college as pre-service teachers and the reality of their classroom practice during their first years of teaching. The intent of this study was to record the descriptions of three teachers who were members of a cohort and took a series of integrated science courses (NSCI series) during their teacher preparation program as it related to the influence of these courses on their teaching practice. The focus of inquiry is guided by a single question: How do former participants in the series of science courses who are currently novice teachers describe their confidence in their ability to teach science content to their middle school students? The theoretical framework was based on Shulman's (1987) pedagogical content knowledge (PCK). PCK involves the teacher understanding the content of science so thoroughly that ways are identified of representing and formulating the subject matter to make it understandable to others. The teacher who has a strong PCK uses powerful analogies, illustrations, examples, explanations and demonstrations that promote personally meaningful student understandings. Novice teachers' reflections on their confidence to teach science content to their middle school students were observed through the lens of PCK. All three novice teachers reported a high confidence level to teach middle school science and attributed their confidence level to a great degree to the integrated science series of courses (NSCI). Method. A qualitative design, specifically a case study, was used for this study. Multiple forms of data collection were employed including a semi structured interview and a focus group

  14. Secondary Physical Science Teachers' Conceptions of Science Teaching in a Context of Change

    NASA Astrophysics Data System (ADS)

    Taylor, Dale L.; Booth, Shirley

    2015-05-01

    Pre-service teachers enter initial teacher education programmes with conceptions of teaching gleaned from their own schooling. These conceptions, which include teachers' beliefs, may be resistant to change, which is a challenge in contexts where teacher educators hope that teachers will teach in ways different from their own schooling. Conceptions of teaching found in different cultural and disciplinary contexts have contextual differences but have resonances with the results of research into teacher beliefs. Our sample of eight South African secondary physical science teachers was schooled in a system which encouraged knowledge transmission, but they were prepared in their initial teacher education for a learner-centred approach. After they had taught for a few years, we explored their conceptions of science teaching, using phenomenographic interviews. Four conceptions emerged inductively from the analysis: transferring science knowledge from mind to mind; transferring problematic science knowledge from mind to mind; creating space for learning science knowledge and creating space for learning problematic science knowledge. Internally these conceptions are constituted by three dimensions of variation: the nature of the science knowledge to be learnt, the role of the students and the role of the teacher. Media and practical work play different roles in the external horizon of these conceptions. These conceptions reflect the disciplinary context as well as the emphases of the sample's initial teacher education programme. This suggests that initial teacher education can significantly shape teachers' conceptions of teaching.

  15. Just-in-Time Teaching in Biology: Creating an Active Learner Classroom Using the Internet

    ERIC Educational Resources Information Center

    Marrs, Kathleen A.; Novak, Gregor

    2004-01-01

    Just-in-Time Teaching (ITT) is a teaching and learning approach that combines the best features of traditional in-class instruction with the communication and resource potential available via the Web. We describe here how ITT can be used to teach biology to undergraduate and graduate level students, both science majors as well as non science…

  16. Teaching science as inquiry in US and in Japan: A cross-cultural comparison of science teachers' understanding of, and attitudes toward inquiry-based teaching

    NASA Astrophysics Data System (ADS)

    Tosa, Sachiko

    Since the publication of the National Science Education Standards in 1996, learning science through inquiry has been regarded as the heart of science education. However, the TIMSS 1999 Video Study showed that inquiry-based teaching has been taking place less in the United States than in Japan. This study examined similarities and differences in how Japanese and American middle-school science teachers think and feel about inquiry-based teaching. Teachers' attitudes toward the use of inquiry in science teaching were measured through a survey instrument (N=191). Teachers' understanding of inquiry-based teaching was examined through interviews and classroom observations in the United States (N=9) and Japan (N=15). The results show that in spite of the variations in teachers' definitions of inquiry-based teaching, teachers in both countries strongly agree with the idea of inquiry-based teaching. However, little inquiry-based teaching was observed in either of the countries for different reasons. The data indicate that Japanese teachers did not generally help students construct their own understanding of scientific concepts in spite of well-planned lesson structures and activity set-ups. On the other hand, the observational data indicate that American teachers often lacked meaningful science content in spite of their high level of pedagogical knowledge. The need for addressing the importance of scientific concepts in teacher preparation programs in higher education institutions in the US is advocated. To the Japanese science education community, the need for teachers' acquisition of instructional strategies for inquiry-based teaching is strongly addressed.

  17. Teaching Triple Science: GCSE Chemistry

    ERIC Educational Resources Information Center

    Learning and Skills Network (NJ3), 2007

    2007-01-01

    The Department for Children, Schools and Families (DCSF) has contracted with the Learning and Skills Network to support awareness and take-up of Triple Science GCSEs through the Triple Science Support Programme. This publication provides an introduction to teaching and learning approaches for the extension topics within GCSE Chemistry. It…

  18. Teaching Triple Science: GCSE Biology

    ERIC Educational Resources Information Center

    Learning and Skills Network (NJ3), 2007

    2007-01-01

    The Department for Children, Schools and Families (DCSF) has contracted with the Learning and Skills Network to support awareness and take-up of Triple Science GCSEs through the Triple Science Support Programme. This publication provides an introduction to teaching and learning approaches for the extension topics within GCSE Biology. It highlights…

  19. Evaluating Junior Secondary Science Textbook Usage in Australian Schools

    NASA Astrophysics Data System (ADS)

    McDonald, Christine V.

    2016-08-01

    A large body of research has drawn attention to the importance of providing engaging learning experiences in junior secondary science classes, in an attempt to attract more students into post-compulsory science courses. The reality of time and resource constraints, and the high proportion of non-specialist science teachers teaching science, has resulted in an overreliance on more transmissive pedagogical tools, such as textbooks. This study sought to evaluate the usage of junior secondary science textbooks in Australian schools. Data were collected via surveys from 486 schools teaching junior secondary (years 7-10), representing all Australian states and territories. Results indicated that most Australian schools use a science textbook in the junior secondary years, and textbooks are used in the majority of science lessons. The most highly cited reason influencing choice of textbook was layout/colour/illustrations, and electronic technologies were found to be the dominant curricula material utilised, in addition to textbooks, in junior secondary science classes. Interestingly, the majority of respondents expressed high levels of satisfaction with their textbooks, although many were keen to stress the subsidiary role of textbooks in the classroom, emphasising the textbook was `one' component of their teaching repertoire. Importantly, respondents were also keen to stress the benefits of textbooks in supporting substitute teachers, beginning teachers, and non-specialist science teachers; in addition to facilitating continuity of programming and staff support in schools with high staff turnover. Implications from this study highlight the need for high quality textbooks to support teaching and learning in Australian junior secondary science classes.

  20. Computer-based Astronomy Labs for Non-science Majors

    NASA Astrophysics Data System (ADS)

    Smith, A. B. E.; Murray, S. D.; Ward, R. A.

    1998-12-01

    We describe and demonstrate two laboratory exercises, Kepler's Third Law and Stellar Structure, which are being developed for use in an astronomy laboratory class aimed at non-science majors. The labs run with Microsoft's Excel 98 (Macintosh) or Excel 97 (Windows). They can be run in a classroom setting or in an independent learning environment. The intent of the labs is twofold; first and foremost, students learn the subject matter through a series of informational frames. Next, students enhance their understanding by applying their knowledge in lab procedures, while also gaining familiarity with the use and power of a widely-used software package and scientific tool. No mathematical knowledge beyond basic algebra is required to complete the labs or to understand the computations in the spreadsheets, although the students are exposed to the concepts of numerical integration. The labs are contained in Excel workbook files. In the files are multiple spreadsheets, which contain either a frame with information on how to run the lab, material on the subject, or one or more procedures. Excel's VBA macro language is used to automate the labs. The macros are accessed through button interfaces positioned on the spreadsheets. This is done intentionally so that students can focus on learning the subject matter and the basic spreadsheet features without having to learn advanced Excel features all at once. Students open the file and progress through the informational frames to the procedures. After each procedure, student comments and data are automatically recorded in a preformatted Lab Report spreadsheet. Once all procedures have been completed, the student is prompted for a filename in which to save their Lab Report. The lab reports can then be printed or emailed to the instructor. The files will have full worksheet and workbook protection, and will have a "redo" feature at the end of the lab for students who want to repeat a procedure.

  1. Turkish Preservice Science Teachers' Efficacy Beliefs Regarding Science Teaching and Their Beliefs about Classroom Management

    ERIC Educational Resources Information Center

    Gencer, Ayse Savran; Cakiroglu, Jale

    2007-01-01

    The purpose of this study was to explore Turkish preservice science teachers' science teaching efficacy and classroom management beliefs. Data in this study were collected from a total number of 584 preservice science teachers utilizing the Science Teaching Efficacy Belief Instrument and the attitudes and beliefs on classroom control (ABCC)…

  2. Teaching Evolution & the Nature of Science.

    ERIC Educational Resources Information Center

    Farber, Paul

    2003-01-01

    The theory of evolution provides direction in many fields, such as ecology, genetics, and embryology. Examines issues concerning the teaching of the subject in the United States. Presents a case study approach to teach about the nature of science using the theory of evolution. (SOE)

  3. A Longitudinal Study of Implementing Reality Pedagogy in an Urban Science Classroom: Effects, Challenges, and Recommendations for Science Teaching and Learning

    NASA Astrophysics Data System (ADS)

    Borges, Sheila Ivelisse

    Statistics indicate that students who reside in forgotten places do not engage in science-related careers. This is problematic because we are not tapping into diverse talent that could very well make scientific strides and because there is a moral obligation for equity as discussed in Science for all (AAAS, 1989). Research suggests that one of the reasons for this disparity is that students feel alienated from science early on in their K--12 education due to their inability to connect culturally with their teachers (Tobin, 2001). Urban students share an urban culture, a way of knowing and being that is separate from that of the majority of the teacher workforce whom have not experienced the nuances of urban culture. These teachers have challenges when teaching in urban classrooms and have a myriad of difficulties such as classroom management, limited access to experienced science colleagues and limited resources to teach effectively. This leads them to leaving the teaching profession affecting already high teacher attrition rates in urban areas (Ingersol, 2001). In order to address these issues a culturally relevant pedagogy, called reality pedagogy (Emdin, 2011), was implemented in an urban science classroom using a bricolage (Denzin & Lincoln, 2005) of different theories such as social capital (Bourdieu, 1986) and critical race theory (Ladson-Billings & Tate, 1995), along with reality pedagogy to construct a qualitative sociocultural lens. Reality pedagogy has five tools, which are cogenerative dialogues, coteaching, cosmopolitanism, context, and content. In this longitudinal critical ethnography a science teacher in an alternative teaching certification program was supported for two years as she implemented the tools of reality pedagogy with her urban students. Findings revealed that the science teacher enacted four racial microaggressions against her students, which negatively affected the teacher-student relationship and science teaching and learning. As the

  4. Preparing perservice teachers to teach elementary school science

    NASA Astrophysics Data System (ADS)

    Lewis, Amy D.

    The development of scientifically literate citizens begins in the elementary school. Yet elementary school teachers are ill prepared to teach science (Trygstad, Smith, Banilower, Nelson, & Horizon Research, Inc., 2013). The research base on teacher preparation finds that programs designed to prepare elementary teachers are inadequate in providing both the content knowledge and pedagogical content knowledge necessary to teach science effectively (Baumgartner, 2010; Bodzin & Beerer, 2003; Bulunuz & Jarrett 2009). This mixed methods study examined what happened when a science methods course was interactively co-taught by an expert in elementary teaching methods and a physics expert. This study also aimed to discover what aspects of the curriculum pre-service teachers (PSTs) said helped them in developing their understanding of science content and scientific reasoning, and how to implement inquiry practices to teach science. A nested case study of three PSTs provided descriptive portraits of student experiences in the class. A whole class case analysis was used to examine what PSTs learned in terms of science, scientific reasoning skills, and pedagogical content knowledge (PCK) from their experiences in the course. It was found that students often conflated science content with the experiences they had in learning the content. Although PSTs felt the interactive co-teaching model effectively created a balance between theory and practice, it was their experiences doing science--conducting physical experiments, developing and discussing scientific models, and the use of inquiry-based instruction--that they credited for their learning. Even with careful curriculum planning, and a course purposely designed to bridge the theory to practice gap, this study found one semester-long methods course to be insufficient in providing the vast content knowledge and PCK elementary school science teachers need.

  5. Teaching Life Sciences to Blind and Visually Impaired Learners

    ERIC Educational Resources Information Center

    Fraser, William John; Maguvhe, Mbulaheni Obert

    2008-01-01

    This study reports on the teaching of life sciences (biology) to blind and visually impaired learners in South Africa at 11 special schools with specific reference to the development of science process skills in outcomes-based classrooms. Individual structured interviews were conducted with nine science educators teaching at the different special…

  6. Innovative Technologies in Science Teaching

    ERIC Educational Resources Information Center

    Guerra, Cecilia; Pombo, Lucia; Moreira, Antonio

    2011-01-01

    Technology plays a crucial role in pupils' and primary teachers' lives nowadays and its use can facilitate change towards an innovative school environment. The internet, for example, can act as a platform to foster science teaching and offers a variety of opportunities for effective science learning and engaging and motivating children. But…

  7. Teaching with Moodle in Soil Science

    NASA Astrophysics Data System (ADS)

    Roca, Núria

    2014-05-01

    Soil is a 3-dimensional body with properties that reflect the impact of climate, vegetation, fauna, man and topography on the soil's parent material over a variable time span. Therefore, soil is integral to many ecological and social systems and it holds potential solutions for many of the world's economic and scientific problems as climate change or scarcity of food and water. The teaching of Soil Science, as a natural science in its own right, requires principles that reflect the unique features and behaviour of soil and the practices of soil scientists. It could be argued that a unique set of teaching practices applies to Soil Science; however specific teaching practices are scarce in literature. The present work was triggered by the need to develop new techniques of teaching to speed up the learning process and to experiment with new methods of teaching. For such, it is necessary to adopt virtual learning environment to new learning requirements regarding Soil Science. This paper proposes a set of e-teaching techniques (as questionnaires, chats as well as forums) introduced in Moodle virtual learning Environment in order to increase student motivation and interest in Soil Science. Such technologies can be used to: a)Increase the amount of time a teacher allots for student reflection after asking a question and before a student responds (wait-time). This practice increases the quantity and quality of students' answers. The students give longer responses, students give more evidence for their ideas and conclusions, students speculate and hypothesize more and more students participated in responding. Furthermore, students ask more questions and talk more to other students. b)Improve active learning, an essential paradigm in education. In contrast to learning-before-doing, we propose to focus on learning-in-doing, a model where learners are increasingly involved in the authentic practices of communities through learning conversations and activities involving expert

  8. Science Teaching and Learning Activities and Students' Engagement in Science

    ERIC Educational Resources Information Center

    Hampden-Thompson, Gillian; Bennett, Judith

    2013-01-01

    The purpose of this analysis is to describe the variation in students' reports of engagement in science across science teaching and learning activities. In addition, this study examines student and school characteristics that may be associated with students' levels of engagement in science. Data are drawn from the Programme for International…

  9. Using the Teach Astronomy Website to Enrich Introductory Astronomy Classes

    NASA Astrophysics Data System (ADS)

    Hardegree-Ullman, K. K.; Impey, C. D.; Patikkal, A.; Austin, C. L.

    2013-04-01

    This year we implemented Teach Astronomy as a free online resource to be used as a teaching tool for non-science major astronomy courses and for a general audience interested in the subject. The comprehensive astronomy content of the website includes: an introductory text book, encyclopedia articles, images, two to three minute topical video clips, podcasts, and news articles. Teach Astronomy utilizes a novel technology to cluster, display, and navigate search results, called a Wikimap. We will present an overview of how Teach Astronomy works and how instructors can use it as an effective teaching tool in the classroom. Additionally, we will gather feedback from science instructors on how to improve the features and functionality of the website, as well as develop new assignment ideas using Teach Astronomy.

  10. Turkish Preservice Science Teachers' Socioscientific Issues-Based Teaching Practices in Middle School Science Classrooms

    ERIC Educational Resources Information Center

    Genel, Abdulkadir; Topçu, Mustafa Sami

    2016-01-01

    Background: Despite a growing body of research and curriculum reforms including socioscientific issues (SSI) across the world, how preservice science teachers (PST) or in-service science teachers can teach SSI in science classrooms needs further inquiry. Purpose: The purpose of this study is to describe the abilities of PSTs to teach SSI in middle…

  11. Taking a Closer Look at Science Teaching Orientations

    ERIC Educational Resources Information Center

    Friedrichsen, Patrica; Van Driel, Jan H.; Abell, Sandra K.

    2011-01-01

    In this position paper, we examine the science teaching orientation component of the S. Magnusson, J. Krajcik, and H. Borko (1999) pedagogical content knowledge (PCK) model for science teaching. We trace the origin of the construct in the literature, identifying multiple definitions that have lead to ambiguity. After examining published studies…

  12. New Pedagogies on Teaching Science with Computer Simulations

    ERIC Educational Resources Information Center

    Khan, Samia

    2011-01-01

    Teaching science with computer simulations is a complex undertaking. This case study examines how an experienced science teacher taught chemistry using computer simulations and the impact of his teaching on his students. Classroom observations over 3 semesters, teacher interviews, and student surveys were collected. The data was analyzed for (1)…

  13. Reflections on Teaching App Inventor for Non-Beginner Programmers: Issues, Challenges and Opportunities

    ERIC Educational Resources Information Center

    Soares, Andrey

    2014-01-01

    App Inventor has been used successfully to teach introduction to programming course for CS/IS/IT and Non-CS majors. Now, researchers are looking on how to include the tool in the curriculum of more advanced computing courses. This paper presents some Issues, Challenges and Opportunities observed while teaching courses on Mobile Application…

  14. The integration of creative drama into science teaching

    NASA Astrophysics Data System (ADS)

    Arieli, Bracha (Bari)

    This study explored the inclusion of creative drama into science teaching as an instructional strategy for enhancing elementary school students' understanding of scientific concepts. A treatment group of sixth grade students was taught a Full Option Science System (FOSS) science unit on Mixtures and Solutions with the addition of creative drama while a control group was taught using only the FOSS teaching protocol. Quantitative and qualitative data analyses demonstrated that students who studied science through creative drama exhibited a greater understanding of scientific content of the lessons and preferred learning science through creative drama. Treatment group students stated that they enjoyed participating in the activities with their friends and that the creative drama helped them to better understand abstract scientific concepts. Teachers involved with the creative drama activities were positively impressed and believed creative drama is a good tool for teaching science. Observations revealed that creative drama created a positive classroom environment, improved social interactions and self-esteem, that all students enjoyed creative drama, and that teachers' teaching style affected students' use of creative drama. The researcher concluded that the inclusion of creative drama with the FOSS unit enhanced students' scientific knowledge and understanding beyond that of the FOSS unit alone, that both teachers and students reacted positively to creative drama in science and that creative drama requires more time.

  15. How Constructivist-Based Teaching Influences Students Learning Science

    ERIC Educational Resources Information Center

    Seimears, C. Matt; Graves, Emily; Schroyer, M. Gail; Staver, John

    2012-01-01

    The purpose of this article is to provide details about the beneficial processes the constructivist pedagogy has in the area of teaching science. No Child Left Behind could possibly cause detrimental effects to the science classroom and the constructivist teacher, so this essay tells how constructivist-based teaching influences students and their…

  16. How Is Science Being Taught? Measuring Evidence-Based Teaching Practices across Undergraduate Science Departments

    PubMed Central

    Drinkwater, Michael J.; Matthews, Kelly E.; Seiler, Jacob

    2017-01-01

    While there is a wealth of research evidencing the benefits of active-learning approaches, the extent to which these teaching practices are adopted in the sciences is not well known. The aim of this study is to establish an evidential baseline of teaching practices across a bachelor of science degree program at a large research-intensive Australian university. Our purpose is to contribute to knowledge on the adoption levels of evidence-based teaching practices by faculty within a science degree program and inform our science curriculum review in practical terms. We used the Teaching Practices Inventory (TPI) to measure the use of evidence-based teaching approaches in 129 courses (units of study) across 13 departments. We compared the results with those from a Canadian institution to identify areas in need of improvement at our institution. We applied a regression analysis to the data and found that the adoption of evidence-based teaching practices differs by discipline and is higher in first-year classes at our institution. The study demonstrates that the TPI can be used in different institutional contexts and provides data that can inform practice and policy. PMID:28232589

  17. Understanding Teaching or Teaching for Understanding: Alternative Frameworks for Science Classrooms.

    ERIC Educational Resources Information Center

    Wildy, Helen; Wallace, John

    1995-01-01

    Describes the findings of a study that involved exploring the classroom practices of an experienced physics teacher to enable researchers to reexamine assumptions about good teaching. Asserts that a broader view of good science teaching is needed than that proposed by the constructivist literature. (ZWH)

  18. Teaching Science Using Stories: The Storyline Approach

    ERIC Educational Resources Information Center

    Isabelle, Aaron D.

    2007-01-01

    Storytelling is an age-old and powerful means of communication that can be used as an effective teaching strategy in the science classroom. This article describes the authors' experiences implementing the Storyline Approach, an inquiry-based teaching method first introduced by Kieran Egan (1986), in the context of teaching the concept of air…

  19. Integrating the New Generation Science Standards (NGSS) into K- 6 teacher training and curricula

    NASA Astrophysics Data System (ADS)

    Pinter, S.; Carlson, S. J.

    2017-12-01

    The Next Generation Science Standards is an initiative, adopted by 26 states, to set national education standards that are "rich in content and practice, arranged in a coherent manner across disciplines and grades to provide all students an internationally benchmarked science education." Educators now must integrate these standards into existing curricula. Many grade-school (K-6) teachers face a particularly daunting task, as they were traditionally not required to teach science or only at a rudimentary level. The majority of K-6 teachers enter teaching from non-science disciplines, making this transition even more difficult. Since the NGSS emphasizes integrated and coherent progression of knowledge from grade to grade, prospective K-6 teachers must be able to deliver science with confidence and enthusiasm to their students. CalTeach/MAST (Mathematics and Science Teaching Program) at the University of California Davis, has created a two-quarter sequence of integrated science courses for undergraduate students majoring in non-STEM disciplines and intending to pursue multiple-subject K-6 credentials. The UCD integrated science course provides future primary school teachers with a basic, but comprehensive background in the physical and earth/space sciences. Key tools are taught for improving teaching methods, investigating complex science ideas, and solving problems relevant to students' life experiences that require scientific or technological knowledge. This approach allows prospective K-6 teachers to explore more effectively the connections between the disciplinary core ideas, crosscutting concepts, and scientific and engineering practices, as outlined in the NGSS. In addition, they develop a core set of science teaching skills based on inquiry activities and guided lab discussions. With this course, we deliver a solid science background to prospective K-6 teachers and facilitate their ability to teach science following the standards as articulated in the NGSS.

  20. Emotional Issues in Teaching Science: A Case Study of a Teacher's Views

    NASA Astrophysics Data System (ADS)

    Zembylas, Michalinos

    2004-08-01

    Science teaching environments are social environments, and teachers emotions interact with their science teaching in powerful ways. To value the teacher is to value the whole person, not just the intellect. In this paper, a theorization of teacher emotion in science teaching is developed which illustrates the role of emotion in establishing and maintaining self-esteem in science teaching situations. From the standpoint of social-constructionist theory of emotion, it is argued that emotion is a social construction within social relationships. Arising from this view, are the emotions of intellectual excitement, frustration and shame that play a key role in the development of self-esteem. The dynamics of these emotions, in the context of experiences of success and failure, may dispose teachers to act positively or negatively towards science teaching. The theorisation developed is illustrated in the emotional experiences of an elementary school teacher in an early childhood science classroom. These experiences indicate that emotion is constitutive of teaching, and merits greater consideration in science teaching.

  1. Teaching methods in the healthcare management major.

    PubMed

    Petrova, Gergana G; Popov, Teodor N

    2009-01-01

    Organisation and management are factors of paramount importance in higher education for achieving higher quality of training, better professional adaptation, and more effective career pursuance of the students. The present study analyses the use of various teaching methods for the students in the major of Healthcare Management as they are employed in two medical universities. We conducted a detailed questionnaire survey which included the students in the Healthcare Management major in the Faculty of Public Health (FPH) at Sofia Medical University (SMU) and the Medical Faculty of Plovdiv Medical University (PMU). The students were surveyed for two consecutive academic years (2004/2005 and 2005/2006). The logical units of study were 198 students completing their baccalaureate programs in Healthcare Management: 145 (73.23+/-3.15%) in the FPH, SMU and 53 (26.77+/-3.15%) in the PMU (the greater number of students from the SMU was due to the greater number of students admitted into the Sofia Medical University). The technical units of study were the Faculty of Public Health in the Medical University in Sofia and the Medical faculty in the Medical University in Plovdiv. The survey was carried out using our own questionnaire form comprising 51 questions (open and closed), some of them allowing more than one answer. The collected sociological data were analysed using SPSS v. 13.0, and the diagrams were made using Microsoft Excel' 97. We used the alternative, non-parametric and graphic analyses to illustrate the processes and events at a level of significance P < 0.05. The most frequently used teaching method in both Medical Universities is the lecture (30.43+/-3.63% for PMU and 26.32+/-1.91% for SMU). This format of teaching is also considered to be the easiest with regard to learning the study material by 22.75+/-3.25% of the PMU graduates and 27.56+/-2.38% of the SMU graduates. The PMU students regard seminars, individual work and discussions as the format that afford the

  2. Learning to teach effectively: Science, technology, engineering, and mathematics graduate teaching assistants' teaching self-efficacy

    NASA Astrophysics Data System (ADS)

    Dechenne, Sue Ellen

    Graduate teaching assistants (GTAs) from science, technology, engineering, and mathematics (STEM) are important in the teaching of undergraduate students (Golde & Dore, 2001). However, they are often poorly prepared for teaching (Luft, Kurdziel, Roehrig, & Turner, 2004). This dissertation addresses teaching effectiveness in three related manuscripts: (1) A position paper that summarizes the current research on and develops a model of GTA teaching effectiveness. (2) An adaptation and validation of two instruments; GTA perception of teaching training and STEM GTA teaching self-efficacy. (3) A model test of factors that predict STEM GTA teaching self-efficacy. Together these three papers address key questions in the understanding of teaching effectiveness in STEM GTAs including: (a) What is our current knowledge of factors that affect the teaching effectiveness of GTAs? (b) Given that teaching self-efficacy is strongly linked to teaching performance, how can we measure STEM GTAs teaching self-efficacy? (c) Is there a better way to measure GTA teaching training than currently exists? (d) What factors predict STEM GTA teaching self-efficacy? An original model for GTA teaching effectiveness was developed from a thorough search of the GTA teaching literature. The two instruments---perception of training and teaching self-efficacy---were tested through self-report surveys using STEM GTAs from six different universities including Oregon State University (OSU). The data was analyzed using exploratory and confirmatory factor analysis. Using GTAs from the OSU colleges of science and engineering, the model of sources of STEM GTA teaching self-efficacy was tested by administering self-report surveys and analyzed by using OLS regression analysis. Language and cultural proficiency, departmental teaching climate, teaching self-efficacy, GTA training, and teaching experience affect GTA teaching effectiveness. GTA teaching self-efficacy is a second-order factor combined from self

  3. The effect of alternative clinical teaching experience on preservice science teachers' self-efficacy

    NASA Astrophysics Data System (ADS)

    Klett, Mitchell Dean

    The purpose of this study was to compare different methods of alternative clinical experience; family science nights and Saturday science (authentic teaching) against micro-teaching (peer teaching) in terms of self-efficacy in science teaching and teaching self-efficacy. The independent variable, or cause, is teaching experiences (clinical vs. peer teaching); the dependent variable, or effect, is two levels of self-efficacy. This study was conducted at the University of Idaho's main campus in Moscow and extension campus in Coeur d'Alene. Four sections of science methods were exposed to the same science methods curriculum and will have opportunities to teach. However, each of the four sections were exposed to different levels or types of clinical experience. One section of preservice teachers worked with students in a Saturday science program. Another section worked with students during family science nights. The third worked with children at both the Saturday science program and family science nights. The last section did not have a clinical experience with children, instead they taught in their peer groups and acted as a control group. A pre-test was given at the beginning of the semester to measure their content knowledge, teaching self-efficacy and self-efficacy in science teaching. A post-test was given at the end of the semester to see if there was any change in self-efficacy or science teaching self-efficacy. Throughout the semester participants kept journals about their experiences and were interviewed after their alternative clinical teaching experiences. These responses were categorized into three groups; gains in efficacy, no change in efficacy, and drop in efficacy. There was a rise in teaching efficacy for all groups. The mean scores for personal teaching efficacy dropped for the Monday-Wednesday and Tuesday-Thursday group while the both Coeur D'Alene groups remained nearly unchanged. There was no significant change in the overall means for science

  4. Virtual school teacher's science efficacy beliefs: The effects of community of practice on science-teaching efficacy beliefs

    NASA Astrophysics Data System (ADS)

    Uzoff, Phuong Pham

    The purpose of this study was to examine how much K-12 science teachers working in a virtual school experience a community of practice and how that experience affects personal science-teaching efficacy and science-teaching outcome expectancy. The study was rooted in theoretical frameworks from Lave and Wenger's (1991) community of practice and Bandura's (1977) self-efficacy beliefs. The researcher used three surveys to examine schoolteachers' experiences of a community of practice and science-teaching efficacy beliefs. The instrument combined Mangieri's (2008) virtual teacher demographic survey, Riggs and Enochs (1990) Science-teaching efficacy Beliefs Instrument-A (STEBI-A), and Cadiz, Sawyer, and Griffith's (2009) Experienced Community of Practice (eCoP) instrument. The results showed a significant linear statistical relationship between the science teachers' experiences of community of practice and personal science-teaching efficacy. In addition, the study found that there was also a significant linear statistical relationship between teachers' community of practice experiences and science-teaching outcome expectancy. The results from this study were in line with numerous studies that have found teachers who are involved in a community of practice report higher science-teaching efficacy beliefs (Akerson, Cullen, & Hanson, 2009; Fazio, 2009; Lakshmanan, Heath, Perlmutter, & Elder, 2011; Liu, Lee, & Lin, 2010; Sinclair, Naizer, & Ledbetter, 2010). The researcher concluded that school leaders, policymakers, and researchers should increase professional learning opportunities that are grounded in social constructivist theoretical frameworks in order to increase teachers' science efficacy.

  5. Influence of Professional Learning Community (PLC) on Learning a Constructivist Teaching Approach (POE): A Case of Secondary Science Teachers in Bangladesh

    ERIC Educational Resources Information Center

    Rahman, S. M. Hafizur

    2012-01-01

    No major change has occurred up until now with regard to the teaching-learning methods of science used in Bangladesh. Teachers, in most cases, tend to teach the same things in the same ways they were taught when they were students. This study will, therefore, investigate how science teachers' learning in a professional learning community (PLC)…

  6. Choices in higher education: Majoring in and changing from the sciences

    NASA Astrophysics Data System (ADS)

    Minear, Nancy Ann

    This dissertation addresses patterns of retention of undergraduate science, engineering and mathematics (SEM) students, with special attention paid to female and under represented minority students. As such, the study is focused on issues related to academic discipline and institutional retention, rather than the retention of students in the overall system of higher education. While previous retention studies have little to say about rates of retention that are specific to the sciences (or any other specific area of study) or employ models that rely on students' performance at the college level, this work address both points by identifying the post secondary academic performance characteristics of persisters and non-persisters in the sciences by gender, ethnicity and matriculating major as well as identifying introductory SEM course requirements that prevent students from persisting in sciencegender, ethnicity and matriculating major as well as identifying introductory SEM course requirements that prevent students from persisting in science majors. A secondary goal of investigating the usefulness of institutional records for retention research is addressed. Models produced for the entire population and selected subpopulations consistently classified higher-performing (both SEM and non-SEM grade point averages) students into Bachelor of Science categories using the number of Introductory Chemistry courses attempted at the university. For lower performing students, those with more introductory chemistry courses were classified as changing majors out of the sciences, and in general as completing a Bachelor of Arts degree. Performance in gatekeeper courses as a predictor of terminal academic status was limited to Introductory Physics for a small number of cases. Performance in Introductory Calculus and Introductory Chemistry were not consistently utilized as predictor variables. The models produced for various subpopulations (women, ethnic groups and matriculation

  7. Co-Teaching as an Approach to Enhance Science Learning and Teaching in Primary Schools

    ERIC Educational Resources Information Center

    Murphy, Colette; Beggs, Jim

    2006-01-01

    In this article, we explore some of the experiences of student teachers, classroom teachers, science teacher educators, and children in co-teaching contexts in primary schools. The model of co-teaching adopted enabled student teachers (science specialist), classroom teachers, and university tutors to share expertise and work as equals, without…

  8. Aligning the Cultures of Teaching and Learning Science in Urban High Schools

    NASA Astrophysics Data System (ADS)

    Tobin, Kenneth

    2006-09-01

    This paper analyzes teaching and learning in urban science classrooms in which most of the students are African American and from low-income homes. Their teachers are also racial minorities and yet they struggle to teach successfully across cultural boundaries. The first set of case studies involves a male teacher who taught in a high-energy way that produced structures for students to get involved in the doing of science. His verbal fluency and expressive individualism, involving emphatic gestures, rhythmic use of his body, and voice intonation maintained student participation. A second case study examines successful interactions among the students, involving an argument over competing models for chemical valence. Whereas the students interacted successfully, the teacher was frequently out of synchrony in terms of amplitude, pitch, and non-verbal actions. The key implication is the necessity for teachers and students to learn how to interact successfully in ways that produce positive emotional energy, a sense of belonging to the class, and a commitment to shared responsibility for one another's participation. Aligning the cultures of teaching and learning offers a possibility that fluent interactions will occur, afford success, and facilitate the learning of science.

  9. Science teaching self-efficacy in a primary school: A case study

    NASA Astrophysics Data System (ADS)

    de Laat, Jenny; Watters, James J.

    1995-12-01

    Bandura's theory of self-efficacy predicts that teachers with high, self-efficacy should persist longer, provide a greater academic focus in child-centred classrooms and exhibit different types of feedback than teachers who have lower self-efficacy. This paper reports on the science teaching self-efficacy in a group of teachers at a state primary school. The research was conducted in two stages using firstly the Science Teaching Efficacy Beliefs Instrument (STEBI-A) to identify cases, and secondly, a semistructured interview coupled with classroom observations. Thirty seven teaching staff were surveyed with the STEBI-A instrument. The five highest and five lowest scoring teachers on the personal science teaching self-efficacy subscale of the STEBI-A were interviewed. The analysis of interviews and observations indicated that teachers with high personal science teaching self-efficacy have had a long interest in science and a relatively strong background of formal science studies with opportunities for exploring out of school activities. Although they may have experienced negative science experiences in their own schooling other ameliorating factors existed which maintained their interest. Their instructional strategies in science lessons were more child-centred than those reported by teachers with lower personal science teaching self-efficacy. The implications of the results for the inservice training of teachers are discussed.

  10. Teaching animal science: education or indoctrination?

    PubMed

    Schillo, K K

    1997-04-01

    Traditional animal science curricula ignore sociological aspects of scientific research and therefore portray scientific knowledge as value-free. This view gives rise to a teaching method that involves imparting lists of scientific facts that are to be accepted by students without critical evaluation. This amounts to little more than indoctrination and misrepresents science as a system of knowledge. An alternative approach is based on the view that science is a creative human activity that reflects the values and biases of its practitioners. The goal of this approach is to teach students to think analytically and to make independent judgments about scientific claims. This requires a scientific literacy: an understanding of principal scientific theories, the nature of scientific research, and the relationship between science and society. To achieve this goal, a teacher must become less of an authority figure, whose role is to simply pass on information, and more of a facilitator, whose role is to promote questioning, exploration, and synthesis. This requires a learning community in which students feel comfortable taking risks and develop the courage to make and defend judgments. This teaching approach enhances the intellectual and ethical development of students, allowing them to serve themselves and society in responsible ways.

  11. Embedding Nature of Science in Teaching about Astronomy and Space

    ERIC Educational Resources Information Center

    Buaraphan, Khajornsak

    2012-01-01

    Science teachers need an adequate understanding of nature of science (NOS) and the ability to embed NOS in their teaching. This collective case study aims to explore in-service science teachers' conceptions of NOS and the embeddedness of NOS in their teaching about astronomy and space. Three science teachers participated in this study. All…

  12. Teaching Life Sciences to English Second Language Learners: What Do Teachers Do?

    ERIC Educational Resources Information Center

    Ferreira, Johanna G.

    2011-01-01

    South Africa has eleven official languages and legally learners receive tuition in their mother tongue until the end of Grade 3. From then on teachers are required to teach through the medium of English or Afrikaans. The implication is that the majority of learners in the senior secondary school phase study Life Sciences in their second language,…

  13. Science teachers' knowledge, beliefs, values, and concerns of teaching through inquiry

    NASA Astrophysics Data System (ADS)

    Assiri, Yahya Ibrahim

    This study investigated elementary science teachers' knowledge, beliefs, values, and concerns of teaching through inquiry. A mixed-methods research design was utilized to address the research questions. Since this study was designed as a mixed-methods research approach, the researcher gathered two type of data: quantitative and qualitative. The study was conducted in Mohayel School District, Saudi Arabia. The information was collected from 51 participants using a questionnaire with multiple choice questions; also, 11 participants were interviewed. After collecting the data, descriptive and comparative approaches were used. In addition, themes and codes were used to obtain the results. The results indicated that the mean of elementary science teachers' knowledge was 51.23%, which was less than 60% which was the acceptable score. Also, the qualitative results showed that science teachers had a limited background of teaching through inquiry. In addition, the elementary science teachers had a high level of belief to teach science through inquiry since the mean was 3.99 out of 5.00. These quantitative results were confirmed by the qualitative data. Moreover, the overall mean of elementary science teachers was 4.01, which indicated that they believed in the importance of teaching science through inquiry which was also confirmed by the responses of teachers in the interviews. Also, the findings indicated that elementary school science teachers had concerns about teaching science through inquiry since the overall mean was 3.53. In addition, the interviewees mentioned that they faced some obstacles when they teach by inquiry, such as time, resources, class size, and the teachers' background. Generally, the results did not show any significant differences among elementary science teachers' knowledge, beliefs, values, and concerns depending on gender, level of education, and teaching experience. However, the findings indicated there was one significant difference which was

  14. Transformative Science Teaching in Higher Education

    ERIC Educational Resources Information Center

    Fraser, Sharon P.

    2015-01-01

    University science teaching remains fairly traditional in its approach, incorporating teacher-centred and lecture-based methodologies and utilizing cook book laboratory experiences. Innovative science lecturers, however, have transformed their understanding and practice as teachers, placing their students at the heart of their actions and engaging…

  15. Epistemic beliefs of non-STEM majors regarding the nature of science: Where they are and what we can do

    NASA Astrophysics Data System (ADS)

    Willoughby, Shannon D.; Johnson, Keith

    2017-06-01

    Students enrolled in introductory astronomy at a mid-sized land grant institution were surveyed at the start and end of each semester for three years regarding their epistemic beliefs about the physical sciences. After collecting data for two years in the control (baseline) course, the course was revised to include regular discussions of the nature of science, practice identifying pseudoscientific claims, and practice with metacognition. Survey data on epistemic beliefs were collected for one more academic year after the course was revised. This work details how the course was structured during the baseline and revised portions of the study. Data from both portions of the study are analyzed as a whole as well as broken down by gender. Negative trends seen in the baseline data are mostly eradicated in the revised portion of the course. The data analysis motivates a discussion of why including content regarding the nature of science should be integrated in classes geared toward non-science majors.

  16. Science Teaching Methods: A Rationale for Practices

    ERIC Educational Resources Information Center

    Osborne, Jonathan

    2011-01-01

    This article is a version of the talk given by Jonathan Osborne as the Association for Science Education (ASE) invited lecturer at the National Science Teachers' Association Annual Convention in San Francisco, USA, in April 2011. The article provides an explanatory justification for teaching about the practices of science in school science that…

  17. Derivation and Implementation of a Model Teaching the Nature of Science Using Informal Science Education Venues

    ERIC Educational Resources Information Center

    Spector, Barbara S.; Burkett, Ruth; Leard, Cyndy

    2012-01-01

    This paper introduces a model for using informal science education venues as contexts within which to teach the nature of science. The model was initially developed to enable university education students to teach science in elementary schools so as to be consistent with "National Science Education Standards" (NSES) (1996) and "A Framework for…

  18. Saudi Science Teachers' Views and Teaching Strategies of Socioscientific Issues

    NASA Astrophysics Data System (ADS)

    Alamri, Aziz S.

    Scientific developments such as cloning and nuclear energy have generated many controversial issues pertain to many political, social, environmental, ethical and cultural values in different societies around the globe. These controversies delimited and encircled the potential of including and teaching some important aspects of science in schools and therefore caused less consideration to the influence of these issues on enhancing the scientific literacy of people in general. The purpose of this study was to investigate how Saudi science teachers in the city of Tabuk in Saudi Arabia view and teach SSI in Saudi Arabia. This study employed semi-structured interviews with Saudi science teachers. Methodologically, this study used a constructivist grounded theory as a method for analysis to generate in-depth descriptive data about Saudi science teachers' views and teaching strategies of socio-scientific issues. Some direct and indirect benefits pertain to teaching science, understanding the relationship between science, religion, and society and some other topics are discussed in this study.

  19. Promoting Physical Science to Education Majors: Making Connections between Science and Teaching

    ERIC Educational Resources Information Center

    Korb, Michele A.; Sirola, Christopher; Climack, Rebecca

    2005-01-01

    Elementary teachers have been identified as the single most important influence on student's future attitudes and motivations toward science. Research indicates that K-8 science teachers emphasize memorization more than the exploration of questions or critical thought as a result of their college science experiences. The reasons students gradually…

  20. The influence of field experiences on stages of concern and attitudes of preservice teachers toward science and science teaching

    NASA Astrophysics Data System (ADS)

    Strawitz, Barbara M.; Malone, Mark R.

    The purpose of the study was to determine whether the field experience component of an undergraduate science methods course influenced teachers' concerns and attitudes toward science and science teaching. Age, grade-point average, openmindedness, and school assignment were examined as factors which might explain some of the variance in the dependent measures. A one-group pretest-posttest design was used. Students were administered the Teacher Concerns Questionnaire, the Science Teaching Attitude Scales, and the Rokeach Dogmatism Scale approximately eight weeks after the pretest. Results indicated that field experiences did not significantly change student concerns about teaching science but significantly improved student attitudes toward science and science teaching. Students differing in age, grade-point average, and openmindedness did not difer significantly in changes in concerns and changes in attitude toward science and science teaching. Students assigned to different schools differed significantly in changes in attitude toward science.

  1. Deep Knowledge: Learning to Teach Science for Understanding and Equity. Teaching for Social Justice

    ERIC Educational Resources Information Center

    Larkin, Douglas B.

    2013-01-01

    "Deep Knowledge" is a book about how people's ideas change as they learn to teach. Using the experiences of six middle and high school student teachers as they learn to teach science in diverse classrooms, Larkin explores how their work changes the way they think about students, society, schools, and science itself. Through engaging case stories,…

  2. High school and college introductory science education experiences: A study regarding perceptions of university students persisting in science as a major area of study

    NASA Astrophysics Data System (ADS)

    Fredrick, L. Denise

    The focus of this study was to investigate college students' perception of high school and college introductory science learning experiences related to persistence in science as a major area of study in college. The study included students' perceptions of the following areas of science education: (1) teacher interpersonal relationship with students, (2) teacher personality styles, (3) teacher knowledge of the content, (4) instructional methods, and (5) science course content. A survey research design was employed in the investigative study to collect and analyze data. One hundred ninety two students participated in the research study. A survey instrument entitled Science Education Perception Survey was used to collect data. The researcher sought to reject or support three null hypotheses as related to participants' perceptions of high school and college introductory science education experiences. Using binomial regression analysis, this study analyzed differences between students persisting in science and students not persisting in science as a major. The quantitative research indicated that significant differences exist between persistence in science as a major and high school science teacher traits and college introductory science instructional methods. Although these variables were found to be significant predictors, the percent variance was low and should be considered closely before concluded these as strong predictors of persistence. Major findings of the qualitative component indicated that students perceived that: (a) interest in high school science course content and high school science teacher personality and interpersonal relationships had the greatest effect on students' choice of major area of study; (b) interest in college introductory science course content had the greatest effect on students' choice of major area of study; (c) students recalled laboratory activities and overall good teaching as most meaningful to their high school science

  3. Teacher Beliefs toward Using Alternative Teaching Approaches in Science and Mathematics Classes Related to Experience in Teaching

    ERIC Educational Resources Information Center

    Isiksal-Bostan, Mine; Sahin, Elvan; Ertepinar, Hamide

    2015-01-01

    The purpose of this study was to examine the relationships among Turkish classroom, science and mathematics teachers' beliefs toward using inquiry-based approaches, traditional teaching approaches, and technology in their mathematics and science classrooms; their efficacy beliefs in teaching those subjects; and years of experience in teaching in…

  4. Urban High School Teachers' Beliefs Concerning Essential Science Teaching Dispositions

    ERIC Educational Resources Information Center

    Miranda, Rommel

    2012-01-01

    This qualitative study addresses the link between urban high school science teachers' beliefs about essential teaching dispositions and student learning outcomes. The findings suggest that in order to help students to do well in science in urban school settings, science teachers should possess essential teaching dispositions which include…

  5. Preservice Science Teacher Beliefs about Teaching and the Science Methods Courses: Exploring Perceptions of Microteaching Outcomes

    ERIC Educational Resources Information Center

    McLaury, Ralph L.

    2011-01-01

    This study investigates beliefs about teaching held by preservice science teachers and their influences on self-perceived microteaching outcomes within interactive secondary science teaching methods courses. Hermeneutic methodology was used in cooperation with seven preservice science teachers (N = 7) to infer participant beliefs about teaching…

  6. Analysing Exemplary Science Teaching

    ERIC Educational Resources Information Center

    Alsop, Steve, Ed.; Bencze, Larry, Ed.; Pedretti, Erminia, Ed.

    2004-01-01

    How might exemplary practice be represented by teachers' narratives? How might such representations be analyzed? How might theory and practice be related? "Analyzing Exemplary Science Teaching" is a text that seeks to combine educational theory and practice through analysis of a series of teachers' descriptions of "exemplary"…

  7. Impact of instructional Approaches to Teaching Elementary Science on Student Achievement

    NASA Astrophysics Data System (ADS)

    Kensinger, Seth H.

    Strengthening our science education in the United States is essential to the future success of our country in the global marketplace. Immersing our elementary students with research-based quality science instruction is a critical component to build a strong foundation and motivate our students to become interested in science. The research for this study pertained to the type of elementary science instruction in correlation to academic achievement and gender. Through this study, the researcher answered the following questions: 1. What is the difference in achievement for elementary students who have been taught using one of the three science instructional approaches analyzed in this study: traditional science instruction, inquiry-based science instruction with little or no professional development and inquiry-based science instruction with high-quality professional development? 2. What is the difference in student achievement between inquiry-based instruction and non-inquiry based (traditional) instruction? 3. What is the difference in student achievement between inquiry with high quality professional development and inquiry with little or no professional development? 4. Do the three instructional approaches have differentiated effects across gender? The student achievement was measured using the 2010 fourth grade Pennsylvania System of School Assessment (PSSA) in Science. Data was collected from 15 elementary schools forming three main groupings of similar schools based on the results from the 2009 third grade PSSA in Mathematics and student and community demographics. In addition, five sub-group triads were formed to further analyze the data and each sub-group was composed of schools with matching demographic data. Each triad contained a school using a traditional approach to teaching science, a school utilizing an inquiry science approach with little or no professional development, and a school incorporating inquiry science instruction with high quality

  8. A Sourcebook of Cooperative Learning Activities for Introductory Undergraduate Astronomy for Non-Science Majors

    NASA Astrophysics Data System (ADS)

    Deming, Grace L.; Miller, Scott T.; Trasco, John D.

    1996-05-01

    Students become more interested in learning and retain more in courses that rely on active rather than passive teaching methods. Cooperative learning activities can be structured to engage students toward greater participation in their own education. We have developed a sourcebook containing a variety of cooperative learning methods and activities to aid in the teaching of astronomy at the undergraduate level. Special effort has been made to include activities that can be used within the classroom or as a group homework assignment, in courses with teaching assistants and those without, and in large or small classes. In addition to reinforcing concepts taught in introductory astronomy, the activities are structured to strengthen skills associated with a scientifically literate person. A goal of undergraduate science education is to produce citizens who can understand and share in the excitement of scientific discoveries as well as make informed decisions regarding scientific and technological issues. The sourcebook, available in August, 1996, will contain sections on the advantages/disadvantages of group activities, basic cooperative learning techniques, in class/out of class activities, and how to use peer instruction to expose students to the wonderfaul astronomy resources on the internet. Each activity includes suggestions to the instructor as to how the assignment can be incorporated into an introductory astronomy course. This project funded by NSF DUE-9354503.

  9. Teachers' Ways of Talking about Nature of Science and Its Teaching

    ERIC Educational Resources Information Center

    Leden, Lotta; Hansson, Lena; Redfors, Andreas; Ideland, Malin

    2015-01-01

    Nature of science (NOS) has for a long time been regarded as a key component in science teaching. Much research has focused on students' and teachers' views of NOS, while less attention has been paid to teachers' perspectives on NOS teaching. This article focuses on in-service science teachers' ways of talking about NOS and NOS teaching, e.g. what…

  10. On teaching the nature of science: perspectives and resources

    NASA Astrophysics Data System (ADS)

    Radloff, Jeffrey

    2016-06-01

    In this paper, I present a critical review of the recent book, On Teaching the Nature of Science: Perspectives and Resources, written by Douglas Allchin (2013). This publication presents an in-depth examination of the nature of science construct, as well as instruction for educators about how to teach it effectively utilizing historical case studies as vehicles for knowledge. Although several themes in the book merit further attention, a central issue present across all chapters is the largely masculine, monocultural nature of science presented, which is common to a multitude of scientific publications. In this review, I illustrate how culture and gender in science is not addressed throughout the book. I also discuss where we can build on the work of the author to integrate more aspects of gender and culture in teaching the nature of science.

  11. Investigating Your School's Science Teaching and Learning Culture

    ERIC Educational Resources Information Center

    Sato, Mistilina; Bartiromo, Margo; Elko, Susan

    2016-01-01

    The authors report on their work with the Academy for Leadership in Science Instruction, a program targeted to help science teachers promote a science teaching and learning culture in their own schools.

  12. Teaching for Conceptual Change in Elementary and Secondary Science Methods Courses.

    ERIC Educational Resources Information Center

    Marion, Robin; Hewson, Peter W.; Tabachnick, B. Robert; Blomker, Kathryn B.

    1999-01-01

    Describes and analyzes two science methods courses at the elementary and secondary levels for how they addressed four ideas: (1) how students learn science; (2) how teachers teach science to students; (3) how prospective science teachers learn about the first two ideas; and (4) how methods instructors teach prospective science teachers about the…

  13. Resistance to Dialogic Discourse in SSI Teaching: The Effects of an Argumentation-Based Workshop, Teaching Practicum, and Induction on a Preservice Science Teacher

    ERIC Educational Resources Information Center

    Kilinc, Ahmet; Demiral, Umit; Kartal, Tezcan

    2017-01-01

    Teaching socioscientific issues (SSI) necessitates dialogic discourse activities. However, a majority of science teachers prefer monologic discourse in SSI contexts. In addition, some of these teachers are resistant to change (from monologic to dialogic discourse) despite certain professional development attempts. The purpose of the present…

  14. Tools and Traits for Highly Effective Science Teaching, K-8

    ERIC Educational Resources Information Center

    Vasquez, Jo Anne

    2007-01-01

    Even if the reader has little formal training or background knowledge in science, "Tools & Traits for Highly Effective Science Teaching, K-8" pulls together cognitive and educational research to present an indispensable framework for science in the elementary and middle grades. Readers will discover teaching that increases students' engagement and…

  15. Teaching Primary Science: How Research Helps

    ERIC Educational Resources Information Center

    Harlen, Wynne

    2010-01-01

    The very first edition of "Primary Science Review" included an article entitled "Teaching primary science--how research can help" (Harlen, 1986), which announced that a section of the journal would be for reports of research and particularly for teachers reporting their classroom research. The intervening 24 years have seen…

  16. Practicing Science: The Investigative Approach in College Science Teaching. An NSTA Press Journals Collection.

    ERIC Educational Resources Information Center

    Cusick, Judy, Ed.

    This document presents a collection of articles selected from the Journal of College Science Teaching. The selected articles represent how college science teaching should be practiced and include modifications in classrooms and laboratories to allow for the development of inquiry skills. Articles include: (1) "What Should Students Learn about the…

  17. Science Teachers' Utilisation of Innovative Strategies for Teaching Senior School Science in Ilorin, Nigeria

    ERIC Educational Resources Information Center

    Oyelekan, Oloyede Solomon; Igbokwe, Emoyoke Faith; Olorundare, Adekunle Solomon

    2017-01-01

    Efforts have been made to improve science teaching in secondary schools in Nigeria, yet, students continue to perform poorly in science subjects. Many innovative teaching strategies have been developed by educators and found to impact significantly on students' academic performance when utilised. Hence, this study was aimed at examining science…

  18. Science-for-Teaching Discourse in Science Teachers' Professional Learning Communities

    ERIC Educational Resources Information Center

    Lohwasser, Karin

    2013-01-01

    Professional learning communities (PLCs) provide an increasingly common structure for teachers' professional development. The effectiveness of PLCs depends on the content and quality of the participants' discourse. This dissertation was conducted to add to an understanding of the science content needed to prepare to teach science, and the…

  19. The use of simulation in teaching the basic sciences.

    PubMed

    Eason, Martin P

    2013-12-01

    To assess the current use of simulation in medical education, specifically, the teaching of the basic sciences to accomplish the goal of improved integration. Simulation is increasingly being used by the institutions to teach the basic sciences. Preliminary data suggest that it is an effective tool with increased retention and learner satisfaction. Medical education is undergoing tremendous change. One of the directions of that change is increasing integration of the basic and clinical sciences to improve the efficiency and quality of medical education, and ultimately to improve the patient care. Integration is thought to improve the understanding of basic science conceptual knowledge and to better prepare the learners for clinical practice. Simulation because of its unique effects on learning is currently being successfully used by many institutions as a means to produce that integration through its use in the teaching of the basic sciences. Preliminary data indicate that simulation is an effective tool for basic science education and garners high learner satisfaction.

  20. Using an interdisciplinary MOOC to teach climate science and science communication to a global classroom

    NASA Astrophysics Data System (ADS)

    Cook, J.

    2016-12-01

    MOOCs (Massive Open Online Courses) are a powerful tool, making educational content available to a large and diverse audience. The MOOC "Making Sense of Climate Science Denial" applied science communication principles derived from cognitive psychology and misconception-based learning in the design of video lectures covering many aspects of climate change. As well as teaching fundamental climate science, the course also presented psychological research into climate science denial, teaching students the most effective techniques for responding to misinformation. A number of enrolled students were secondary and tertiary educators, who adopted the course content in their own classes as well as adapted their teaching techniques based on the science communication principles presented in the lectures. I will outline how we integrated cognitive psychology, educational research and climate science in an interdisciplinary online course that has had over 25,000 enrolments from over 160 countries.

  1. Taking Science to School: Learning and Teaching Science in Grades K-8

    ERIC Educational Resources Information Center

    Duschl, Richard A., Ed.; Schweingruber, Heidi A., Ed.; Shouse, Andrew W., Ed.

    2007-01-01

    What is science for a child? How do children learn about science and how to do science? Drawing on a vast array of work from neuroscience to classroom observation, "Taking Science to School" provides a comprehensive picture of what we know about teaching and learning science from kindergarten through eighth grade. By looking at a broad range of…

  2. Do Biology Majors "Really" Differ from Non-STEM Majors?

    ERIC Educational Resources Information Center

    Cotner, Sehoya; Thompson, Seth; Wright, Robin

    2017-01-01

    Recent calls to action urge sweeping reform in science education, advocating for improved learning for "all" students--including those majoring in fields beyond the sciences. However, little work has been done to characterize the differences--if any exist--between students planning a career in science and those studying other…

  3. ASAS Centennial Paper: animal science teaching: a century of excellence.

    PubMed

    Buchanan, D S

    2008-12-01

    Teaching has a long and varied history in the life of departments of animal science and the American Society of Animal Science. Some of the earliest reports from meetings of the society have strong indication that planning the curriculum was a prominent feature of the meetings. Teaching symposia were also included almost from the beginning. The society went through a lengthy period from the 1940s through most of the 1960s when teaching was not a prominent focus, but a symposium in 1968 appeared to be a catalyst for change, and, since that date, teaching has again been an important part of the meetings. In recent years, outstanding symposia and contributed papers have made the teaching section a vibrant entry. Departments of animal science have changed considerably since the early days in which "men taught boys" and the primary goal was to produce farmers. More female students, more urban students, interest in a wide variety of animals, and greatly diversified career goals have been emerging during the last few decades. Departments of animal science and the American Society of Animal Science are positioning to be able to respond to change and face the challenge of providing excellence in teaching during the next century.

  4. Common Interest, Common Visions? Chinese Science Teacher Educators' Views about the Values of Teaching Nature of Science to Prospective Science Teachers

    ERIC Educational Resources Information Center

    Wan, Zhi Hong; Wong, Siu Ling; Yung, Benny Hin Wai

    2011-01-01

    Teaching nature of science (NOS) is beginning to take root in science education in China. This exploratory study interviewed 24 science teacher educators from economically developed parts of China about their conceptions of teaching NOS to prospective science teachers. Five key dimensions emerged from the data. This paper focuses on the dimension…

  5. Interacting with Elementary Interns about Their Perceptions of Science Teaching.

    ERIC Educational Resources Information Center

    Carnes, G. Nathan; Shull, Tiffany A.; Brown, Shanise N.; Munn, Wesley G.

    This research investigated three elementary preservice teachers' perceptions of elementary science teachers. Three questions guided this investigation. What images did elementary Masters of Arts in Teaching (M.A.T.) interns have of science teaching at the beginning and end of science methods courses? What changes, if any, did they make in their…

  6. A grounded theory study on the role of differentiated instruction in effective middle school science teaching

    NASA Astrophysics Data System (ADS)

    Jones, Brian Kirby

    The purpose of this grounded theory study was to develop a model explaining the role of differentiated instruction (DI) in effective middle school science teaching. The study examined the best teaching practices and differentiated elements from eight general education middle school science teachers, all scoring at the highest level of a teaching effectiveness measure on their evaluations, through a collection of observational, interview, survey, and teaching artifact data. The data were analyzed through the methodology of a systematic grounded theory qualitative approach using open, axial, and selective coding to develop a model describing how and to what degree effective middle school science teachers differentiated their best teaching practices. The model that emerged from the data shows instruction as a four-phase process and highlights the major elements of best practices and DI represented at each phase. The model also depicts how teachers narrowed the scope of their differentiating strategies as instruction progressed. The participants incorporated DI into their pedagogies, though in different degrees at each phase, and primarily by using variety to present concepts with multiple types of instruction followed by a series of sense-making activities related to several learning modalities. Teachers scaffolded students carefully, using informal and formal assessment data to inform future instructional decisions and especially their plans to reteach or extend on a concept. The model is intended to provide insight into the value of DI for middle school science teaching.

  7. How Is Science Being Taught? Measuring Evidence-Based Teaching Practices across Undergraduate Science Departments.

    PubMed

    Drinkwater, Michael J; Matthews, Kelly E; Seiler, Jacob

    2017-01-01

    While there is a wealth of research evidencing the benefits of active-learning approaches, the extent to which these teaching practices are adopted in the sciences is not well known. The aim of this study is to establish an evidential baseline of teaching practices across a bachelor of science degree program at a large research-intensive Australian university. Our purpose is to contribute to knowledge on the adoption levels of evidence-based teaching practices by faculty within a science degree program and inform our science curriculum review in practical terms. We used the Teaching Practices Inventory (TPI) to measure the use of evidence-based teaching approaches in 129 courses (units of study) across 13 departments. We compared the results with those from a Canadian institution to identify areas in need of improvement at our institution. We applied a regression analysis to the data and found that the adoption of evidence-based teaching practices differs by discipline and is higher in first-year classes at our institution. The study demonstrates that the TPI can be used in different institutional contexts and provides data that can inform practice and policy. © 2017 M. J. Drinkwater et al. CBE—Life Sciences Education © 2017 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

  8. Teaching Science in a Multicultural World.

    ERIC Educational Resources Information Center

    Offutt, Elizabeth Rhodes

    This book is designed to be a source of ideas and motivation to encourage curiosity in children, provide opportunities to develop scientific processing skills, find out about cultures around the world, and explore science concepts. This resource incorporates multicultural literature and approaches into the teaching of science concepts in the…

  9. Development of the Elastic Rebound Strike-slip (ERS) Fault Model for Teaching Earthquake Science to Non-science Students

    NASA Astrophysics Data System (ADS)

    Glesener, G. B.; Peltzer, G.; Stubailo, I.; Cochran, E. S.; Lawrence, J. F.

    2009-12-01

    The Modeling and Educational Demonstrations Laboratory (MEDL) at the University of California, Los Angeles has developed a fourth version of the Elastic Rebound Strike-slip (ERS) Fault Model to be used to educate students and the general public about the process and mechanics of earthquakes from strike-slip faults. The ERS Fault Model is an interactive hands-on teaching tool which produces failure on a predefined fault embedded in an elastic medium, with adjustable normal stress. With the addition of an accelerometer sensor, called the Joy Warrior, the user can experience what it is like for a field geophysicist to collect and observe ground shaking data from an earthquake without having to experience a real earthquake. Two knobs on the ERS Fault Model control the normal and shear stress on the fault. Adjusting the normal stress knob will increase or decrease the friction on the fault. The shear stress knob displaces one side of the elastic medium parallel to the strike of the fault, resulting in changing shear stress on the fault surface. When the shear stress exceeds the threshold defined by the static friction of the fault, an earthquake on the model occurs. The accelerometer sensor then sends the data to a computer where the shaking of the model due to the sudden slip on the fault can be displayed and analyzed by the student. The experiment clearly illustrates the relationship between earthquakes and seismic waves. One of the major benefits to using the ERS Fault Model in undergraduate courses is that it helps to connect non-science students with the work of scientists. When students that are not accustomed to scientific thought are able to experience the scientific process first hand, a connection is made between the scientists and students. Connections like this might inspire a student to become a scientist, or promote the advancement of scientific research through public policy.

  10. Graduate performance of science education department in implementing conservation-based science teaching

    NASA Astrophysics Data System (ADS)

    Parmin; Savitri, E. N.; Amalia, A. V.; Pratama, M. R.

    2018-04-01

    This study aims to measure the performance of graduates in implementing conservation-based science teaching. The study employed a qualitative method by collecting the self-assessment data from alumni and the performance assessment from the headmasters of schools where the graduates are currently teaching. There are nine indicators of conservation insight examined in this study. The study concluded that the 78 alumni, who have become teachers when the study was conducted, perform well in implementing conservative science lessons.

  11. Attitudes of Saudi Arabian secondary preservice teachers toward teaching practices in science: The adequacy of preparation to use teaching strategies in classrooms

    NASA Astrophysics Data System (ADS)

    Aljabber, Jabber M.

    The purpose of this study was to investigate the attitudes of Saudi Arabian secondary preservice science teachers (SPSTs) toward a variety of science teaching practices. An ultimate, essential goal of this study was to use generated information and findings to improve the current secondary science education programs in Saudi Arabia and to develop better science teacher practices. The selected practices were posted by the National Research Council in 1999. These indicated that students learn science best through understanding of science rather than memorization of scientific facts and concepts, building new knowledge and understanding on what is already known and believed, formulating new knowledge by modifying and refining current concepts and by adding new concepts to what is already known, taking care of their own learning, social learning environments and interactions, and application of knowledge to novel situations. The study's sample consisted of all (147) SPSTs enrolled in the spring semester of 2003 in four Teachers' Colleges: Riyadh, Makkah, Taif, and Dammam. All participants were performing student teaching in secondary schools. This study used quantitative and qualitative data collection methods. Only three SPSTs were purposefully selected from each college for seven semi-structured interview questions, lasting an hour per interview. They were asked to complete a 58-item questionnaire survey and respond to four open-ended survey questions. To assess their attitudes toward the above science teaching practices, data was analyzed using the Rasch analysis model, other parametric tests (e.g., a one-way analysis of variance (ANOVA) and independent-samples t-test), and non-parametric tests (e.g., a chi-square of independent test). Furthermore, qualitative procedures were also used to assess SPSTs' views of some specific aspects about science teaching and the current secondary science education programs in Saudi Arabia. This was achieved through a careful

  12. Hopes and Fears for Science Teaching: The Possible Selves of Preservice Teachers in a Science Education Program

    NASA Astrophysics Data System (ADS)

    Hong, Ji; Greene, Barbara

    2011-10-01

    Given the high attrition rate of beginning science teachers, it is imperative to better prepare science preservice teachers, so that they can be successful during the early years of their teaching. The purpose of this study was to explore science preservice teachers' views of themselves as a future teacher, in particular their hopes and fears for science teaching and the experiences that help to shape their possible selves. Employed were qualitative methods, which included open-ended surveys and face-to-face interviews. Eleven preservice teachers who enrolled in a secondary science teacher preparation program participated. Findings showed six categories of future selves with the most frequent category being for effective/ineffective science teaching. When their hoped-for and feared selves were not balanced, participants articulated more fears. Regarding the primary influence in shaping their hopes and fears, diverse past experiences related to teaching and learning appeared to be more salient factors than science teacher education program. Given the enriched understanding of the science preservice teachers' perceptions, we provided suggestions for science teacher educators.

  13. Recruitment of Early STEM Majors into Possible Secondary Science Teaching Careers: The Role of Science Education Summer Internships

    ERIC Educational Resources Information Center

    Borgerding, Lisa A.

    2015-01-01

    A shortage of highly qualified math and science teachers pervades the U.S. public school system. Clearly, recruitment of talented STEM educators is critical. Previous literature offers many suggestions for how STEM teacher recruitment programs and participant selection should occur. This study investigates how early STEM majors who are not already…

  14. Teaching and Learning Science for Transformative, Aesthetic Experience

    ERIC Educational Resources Information Center

    Girod, Mark; Twyman, Todd; Wojcikiewicz, Steve

    2010-01-01

    Drawing from the Deweyan theory of experience (1934, 1938), the goal of teaching and learning for transformative, aesthetic experience is contrasted against teaching and learning from a cognitive, rational framework. A quasi-experimental design was used to investigate teaching and learning of fifth grade science from each perspective across an…

  15. Interesting Science and Mathematics Graduate Students in Secondary Teaching

    ERIC Educational Resources Information Center

    Latterell, Carmen M.

    2009-01-01

    State and national initiatives attempt to increase the quantity and quality of secondary mathematics and science teachers. Research suggests that if one could appeal to something inside of people or about the process of teaching and learning itself, then one might draw current mathematics and science graduate students into secondary teaching. This…

  16. On Teaching the Nature of Science: Perspectives and Resources

    ERIC Educational Resources Information Center

    Radloff, Jeffrey

    2016-01-01

    In this paper, I present a critical review of the recent book, "On Teaching the Nature of Science: Perspectives and Resources," written by Douglas Allchin (2013). This publication presents an in-depth examination of the nature of science construct, as well as instruction for educators about how to teach it effectively utilizing…

  17. Interactive Whiteboards for Teaching and Learning Science: Ascertaining Research

    ERIC Educational Resources Information Center

    Mata, Liliana; Lazar, Gabriel; Lazar, Iuliana

    2016-01-01

    The purpose of this paper is to analyze of latest research focused on the investigation of interactive whiteboards used in teaching and learning Science. In the theoretical framework the main objectives are: a) the identification of specific research regarding the integration of interactive whiteboards in teaching and learning Science and b) the…

  18. Support for Teaching at Major Universities.

    ERIC Educational Resources Information Center

    Ericksen, Stanford C., Ed.; Cook, John A., Ed.

    Major themes that dominate institutional support for teaching are addressed by representatives of large research-oriented institutions of higher education that form the "Panel on Research and Development of Instructional Resources." The Panel is composed of the Big Ten universities and the University of Chicago. Contents are as follows: "The Panel…

  19. An investigation of factors affecting elementary female student teachers' choice of science as a major at college level in Zimbabwe

    NASA Astrophysics Data System (ADS)

    Mlenga, Francis Howard

    The purpose of the study was to determine factors affecting elementary female student teachers' choice of science as a major at college level in Zimbabwe. The study was conducted at one of the Primary School Teachers' Colleges in Zimbabwe. A sample of two hundred and thirty-eight female student teachers was used in the study. Of these one hundred and forty-two were non-science majors who had been randomly selected, forty-one were science majors and forty-five were math majors. Both science and math majors were a convenient sample because the total enrollment of the two groups was small. All the subjects completed a survey questionnaire that had sixty-eight items. Ten students from the non-science majors were selected for individual interviews and the same was done for the science majors. A further eighteen were selected from the non-science majors and divided into three groups of six each for focus group interviews. The same was done for the science majors. The interviews were audio taped and transcribed. Data from the survey questionnaires were analyzed using Binary Logistic Regression which predicted factors that affected students' choice of science as a major. The transcribed interview data were analyzed used using domain, taxonomic and componential analyses. Results of the study indicated that elementary female students' choice of science as a major at college level is affected by students' attitudes toward science, teacher behavior, out-of-school experiences, role models, gender stereotyping, parental influence, peer influence, in-school experiences, and societal expectations, namely cultural and social expectations.

  20. Preparing Elementary Mathematics-Science Teaching Specialists.

    ERIC Educational Resources Information Center

    Miller, L. Diane

    1992-01-01

    Describes a professional development program to train math/science specialists for the upper elementary school grades. Using results from an interest survey, 30 teachers were chosen to participate in a 3-year program to become math/science specialists. Presents the teaching model used and the advantages for teachers and students in having subject…

  1. Critical Zone Science as a Multidisciplinary Framework for Teaching Earth Science and Sustainability

    NASA Astrophysics Data System (ADS)

    Wymore, A.; White, T. S.; Dere, A. L. D.; Hoffman, A.; Washburne, J. C.; Conklin, M. H.

    2016-12-01

    The Earth's Critical Zone (CZ) is the terrestrial portion of the continents ranging from the top of the vegetative canopy down through soil and bedrock to the lowest extent of freely circulating groundwater. The primary objective of CZ science is to characterize and understand how the reciprocal interactions among rock, soil, water, air and terrestrial organisms influence the Earth as a habitable environment. Thus it is a highly multidisciplinary science that incorporates the biological, hydrological, geological and atmospheric sciences and provides a holistic approach to teaching Earth system science. Here we share highlights from a full-semester university curriculum that introduces upper-division Environmental Science, Geology, Hydrology and Earth Science students to CZ science. We emphasize how a CZ framework is appropriate to teach concepts across the scientific disciplines, concepts of sustainability, and how CZ science serves as a useful approach to solving humanities' grand challenges.

  2. A Model for Teaching the American Economic System to Non-Business Majors.

    ERIC Educational Resources Information Center

    Hoskins, Thomas R.; Merriam, Lauren E., Jr.

    This model provides community college economics instructors with a flexible plan for developing instructional programs and materials to improve the level of economic understanding among non-business majors. More specifically, the model provides instructors with some exposure to the systems approach to instructional design and to appropriate…

  3. Developing a Constructivist Proposal for Primary Teachers to Teach Science Process Skills: "Extended" Simple Science Experiments (ESSE)

    ERIC Educational Resources Information Center

    Hirça, Necati

    2015-01-01

    Although science experiments are the basis of teaching science process skills (SPS), it has been observed that a large number of prospective primary teachers (PPTs), by virtue of their background, feel anxious about doing science experiments. To overcome this problem, a proposal was suggested for primary school teachers (PSTs) to teach science and…

  4. Emotions and elementary school science teaching: Postmodernism in practice

    NASA Astrophysics Data System (ADS)

    Zembylas, Michalinos

    This is an ethnographic study about an elementary school teacher's emotions in her science teaching and pedagogy. This study is an interdisciplinary account of emotions in teaching and draws both methodologically and theoretically from a variety of disciplines: philosophy, sociology, psychology, anthropology, cultural studies and feminist studies. The account developed here is based on my understanding of the role of one teacher's (Catherine) emotions in her classroom life for three years. I describe my approach in terms of what I call emotional genealogies of teaching; referring to an account of the events, objects, persons and their relationships that are present or absent in the realization of emotions, and the ways that these emotions are experienced in relation to the self (individual reality), the others (social interactions) and the world in general (sociopolitical context). Applied to my study, an emotional genealogy of Catherine's science teaching seeks not to trace the gradual evolution of her emotions but to record the singularity of various events that make some emotions present and others absent. My study shows how certain emotions are constructed in the science classroom and how they are transformed over the years (as mediated by values, philosophies, beliefs and so on). Catherine's emotions in science teaching is a "history of the present," a history of her emotions' "presences and absences" in her daffy interactions with her students, parents and administrators in the context of the science classroom. This work raises important questions that go beyond the meaning and interpretation of teachers' emotions: How can teachers' emotions become a legitimate topic in (science) education as well as in efforts for science curricular reform? Further, how can educational institutions (universities and schools) and elementary school science teachers themselves support their personal and professional emotional growth?

  5. Conceptions of Teaching Science Held by Novice Teachers in an Alternative Certification Program

    ERIC Educational Resources Information Center

    Koballa, Thomas R.; Glynn, Shawn M.; Upson, Leslie

    2005-01-01

    Case studies to investigate the conceptions of teaching science held by three novice teachers participating in an alternative secondary science teacher certification program were conducted, along with the relationships between their conceptions of science teaching and their science teaching practice. Data used to build the cases included the…

  6. Science is Elementary, A Science Teaching Resource Publication, 1992-1993.

    ERIC Educational Resources Information Center

    Science is Elementary, 1993

    1993-01-01

    These resource magazines for K-6 educators are published to promote the teaching of science, mathematics, and technology through participatory, inquiry-based methods. Each issue provides resources and hands-on activities for educators that focus on one theme. Issues in volume 5 cover the themes of geology, math and science integration, tropical…

  7. Learning to teach science in urban schools

    NASA Astrophysics Data System (ADS)

    Tobin, Kenneth; Roth, Wolff-Michael; Zimmermann, Andrea

    2001-10-01

    Teaching in urban schools, with their problems of violence, lack of resources, and inadequate funding, is difficult. It is even more difficult to learn to teach in urban schools. Yet learning in those locations where one will subsequently be working has been shown to be the best preparation for teaching. In this article we propose coteaching as a viable model for teacher preparation and the professional development of urban science teachers. Coteaching - working at the elbow of someone else - allows new teachers to experience appropriate and timely action by providing them with shared experiences that become the topic of their professional conversations with other coteachers (including peers, the cooperating teacher, university supervisors, and high school students). This article also includes an ethnography describing the experiences of a new teacher who had been assigned to an urban high school as field experience, during which she enacted a curriculum that was culturally relevant to her African American students, acknowledged their minority status with respect to science, and enabled them to pursue the school district standards. Even though coteaching enables learning to teach and curricula reform, we raise doubts about whether our approaches to teacher education and enacting science curricula are hegemonic and oppressive to the students we seek to emancipate through education.

  8. The Translation of Teachers' Understanding of Gifted Students Into Instructional Strategies for Teaching Science

    NASA Astrophysics Data System (ADS)

    Park, Soonhye; Steve Oliver, J.

    2009-08-01

    This study examined how instructional challenges presented by gifted students shaped teachers’ instructional strategies. This study is a qualitative research grounded in a social constructivist framework. The participants were three high school science teachers who were teaching identified gifted students in both heterogeneously- and homogeneously-grouped classrooms. Major data sources are classroom observations and interviews. Data analysis indicated that these science teachers developed content-specific teaching strategies based on their understanding of gifted students, including: (a) instructional differentiation, e.g., thematic units, (b) variety in instructional mode and/or students’ products, (c) student grouping strategies and peer tutoring, (d) individualized support, (e) strategies to manage challenging questions, (f) strategies to deal with the perfectionism, and (g) psychologically safe classroom environments.

  9. Teaching Aging Content to University-Level Non-Gerontology Majors

    ERIC Educational Resources Information Center

    Beland, Robert

    2004-01-01

    The older adult population in America will significantly increase in the future. Older adults have important needs for recreation and leisure services (Beland, 2002). The author taught a class titled "Leisure Services for Older Adults" for over 24 years at the University of Florida. He has taught gerontology and recreation by teaching about life…

  10. A Geometric Model to Teach Nature of Science, Science Practices, and Metacognition

    ERIC Educational Resources Information Center

    Nyman, Matthew; St. Clair, Tyler

    2016-01-01

    Using the science practice model in science classes for preservice teachers addresses three important aspects of science teacher preparation: teaching the nonlinear nature of scientific process, using scientific practices rather than the ambiguous term "inquiry-based," and emphasizing the process of metacognition as an important tool in…

  11. Teaching Computer Science Courses in Distance Learning

    ERIC Educational Resources Information Center

    Huan, Xiaoli; Shehane, Ronald; Ali, Adel

    2011-01-01

    As the success of distance learning (DL) has driven universities to increase the courses offered online, certain challenges arise when teaching computer science (CS) courses to students who are not physically co-located and have individual learning schedules. Teaching CS courses involves high level demonstrations and interactivity between the…

  12. TEACHING SCIENCE AT THE SECONDARY STAGE, A HANDBOOK ON THE TEACHING OF SCIENCE TO THE AVERAGE PUPIL.

    ERIC Educational Resources Information Center

    KNOCK, H.E.; AND OTHERS

    THIS ENGLISH PUBLICATION IS DESIGNED TO PROVIDE DIRECTION FOR PROSPECTIVE OR PRACTICING TEACHERS IN THE TEACHING OF GENERAL EDUCATION SCIENCE TO SECONDARY SCHOOL STUDENTS. IT IS BASED ON THE ASSUMPTION THAT SCIENCE SHOULD BE RECOGNIZED, AND TAUGHT, AS A HUMAN ACTIVITY WHICH EXPLORES THE REALM OF HUMAN EXPERIENCE, MAPS IT METHODICALLY BUT…

  13. A Teaching Intervention to Increase Achievement of Hispanic Nonscience Majors Taking Physical Science Courses

    ERIC Educational Resources Information Center

    Poelzer, G. Herold; Zeng, Liang

    2008-01-01

    This quasi-experimental pilot study of nonscience majors taking a physical science course at a university in South Texas was conducted on Hispanic undergraduate students, and is theory based--an application of attribution theory. That the treatment group outperformed the comparison group provides evidence of the positive effect of having students…

  14. Urban Elementary Teachers' Perspectives on Teaching Science to English Language Learners

    ERIC Educational Resources Information Center

    Lee, Okhee; Maerten-Rivera, Jaime; Buxton, Cory; Penfield, Randall; Secada, Walter G.

    2009-01-01

    This descriptive study examined urban elementary school teachers' perceptions of their science content knowledge, science teaching practices, and support for language development of English language learners. Also examined were teachers' perceptions of organizational supports and barriers associated with teaching science to nonmainstream students.…

  15. The Effect of an Integrated Science and Mathematics Content-Based Course on Science and Mathematics Teaching Efficacy of Preservice Elementary Teachers

    ERIC Educational Resources Information Center

    Moseley, Christine; Utley, Juliana

    2006-01-01

    The purpose of this study was to determine the effect of an earth systems science course (integrated mathematics and science content) on preservice elementary teachers' mathematics and science teaching efficacy. Paired t-tests revealed that the personal mathematics and science teaching efficacy and science teaching outcome expectancy significantly…

  16. Effective Supervision: Supporting the Art and Science of Teaching

    ERIC Educational Resources Information Center

    Marzano, Robert; Livingston, David; Frontier, Tony

    2011-01-01

    It's true that even modest improvements in teacher effectiveness can lead to impressive gains in student achievement. But what hasn't been clear is what exactly district leaders should do to encourage and support teachers in practicing the art and science of great teaching ... until now. Like in his landmark book "The Art and Science of Teaching",…

  17. Promoting Scientific Literacy by Using ICT in Science Teaching

    ERIC Educational Resources Information Center

    Al-Rsa'i, Mohammed Salameh

    2013-01-01

    This study aims to identify the way upon which ICT can be employed in science teaching to develop scientific literacy level. The study has conclude to design a triple learning model (PEA) based on ICT and constructive learning strategy in teaching science through a context which cares for building positive trends of searching for knowledge and…

  18. Using Grand Challenges to Teach Science: A Biology-Geology Collaboration

    NASA Astrophysics Data System (ADS)

    Lyford, M.; Myers, J. D.

    2012-12-01

    Three science courses at the University of Wyoming explore the inextricable connections between science and society by centering on grand challenges. Two of these courses are introductory integrated science courses for non-majors while the third is an upper level course for majors and non-majors. Through collaboration, the authors have developed these courses to explore the grand challenges of energy, water and climate. Each course focuses on the fundamental STEM principles required for a citizen to understand each grand challenge. However, the courses also emphasize the non-STEM perspectives (e.g., economics, politics, human well-being, externalities) that underlie each grand challenge and argue that creating equitable, sustainable and just solutions to the grand challenges hinges on an understanding of STEM and non-STEM perspectives. Moreover, the authors also consider the multitude of personal perspectives individuals bring to the classroom (e.g., values, beliefs, empathy misconceptions) that influence any stakeholder's ability to engage in fruitful discussions about grand challenge solutions. Discovering Science (LIFE 1002) focuses on the grand challenges of energy and climate. Students attend three one-hour lectures, one two-hour lab and a one-hour discussion each week. Lectures emphasize the STEM and non-STEM principles underlying each grand challenge. Laboratory activities are designed to be interdisciplinary and engage students in inquiry-driven activities to reinforce concepts from lecture and to model how science is conducted. Labs also expose students to the difficulties often associated with scientific studies, the limits of science, and the inherent uncertainties associated with scientific findings. Discussion sessions provide an opportunity for students to explore the complexity of the grand challenges from STEM and non-STEM perspectives, and expose the multitude of personal perspectives an individual might harbor related to each grand challenge

  19. Observation of Reform Teaching in Undergraduate Level Mathematics and Science Courses

    ERIC Educational Resources Information Center

    Wainwright, Camille; Flick, Larry; Morrell, Patricia D.; Schepige, Adele

    2004-01-01

    This paper reports on initial results from an ongoing evaluation study of a National Science Foundation project to implement reform-oriented teaching practices in college science and mathematics courses. The purpose of this study was to determine what elements of reform teaching are being utilized by college faculty members teaching undergraduate…

  20. Measuring the Teaching Self-Efficacy of Science, Technology, Engineering, and Math Graduate Teaching Assistants

    ERIC Educational Resources Information Center

    DeChenne, Sue Ellen; Enochs, Larry

    2010-01-01

    An instrument to measure the teaching self-efficacy of science, technology, engineering, and mathematics (STEM) GTAs is adapted from a general college teaching instrument (Prieto Navarro, 2005) for the specific teaching environment of the STEM GTAs. The construct and content validity and reliability of the final instrument are indicated. The final…

  1. Reconsidering English Grammar Teaching for Improving Non-English Majors' English Writing Ability

    ERIC Educational Resources Information Center

    Shen, Yuru

    2012-01-01

    With the globalization of world economy, English learners' writing ability has been attached less and less importance. As a result, many college students in China, especially the non-English majors, cannot express themselves effectively in written English. They make various kinds of mistakes, mostly grammar mistakes, such as writing sentence…

  2. The impact of science methods courses on preservice elementary teachers' science teaching self-efficacy beliefs: Case studies from Turkey and the United States

    NASA Astrophysics Data System (ADS)

    Bursal, Murat

    Four case studies in two American and two Turkish science methods classrooms were conducted to investigate the changes in preservice elementary teachers' personal science teaching efficacy (PSTE) beliefs during their course periods. The findings indicated that while Turkish preservice elementary teachers (TR sample) started the science methods course semester with higher PSTE than their American peers (US sample), due to a significant increase in the US sample's and an insignificant decline in the TR sample's PSTE scores, both groups completed the science methods course with similar PSTE levels. Consistent with Bandura's social cognitive theory, describing four major sources of self-efficacy, the inclusion of mastery experiences (inquiry activities and elementary school micro-teaching experiences) and vicarious experiences (observation of course instructor and supervisor elementary teacher) into the science methods course, providing positive social persuasion (positive appraisal from the instructor and classmates), and improving physiological states (reduced science anxiety and positive attitudes toward becoming elementary school teachers), were found to contribute to the significant enhancement of the US sample's PSTE beliefs. For the TR sample, although some of the above sources were present, the lack of student teaching experiences and inservice teacher observations, as well as the TR samples' negative attitudes toward becoming elementary school teachers and a lack of positive classroom support were found to make Turkish preservice teachers rely mostly on their mastery in science concepts, and therefore resulted in not benefiting from their science methods course, in terms of enhancing their PSTE beliefs. Calls for reforms in the Turkish education system that will include more mastery experiences in the science methods courses and provide more flexibility for students to choose their high school majors and college programs, and switch between them are made. In

  3. Effects of 3D Printing Project-based Learning on Preservice Elementary Teachers' Science Attitudes, Science Content Knowledge, and Anxiety About Teaching Science

    NASA Astrophysics Data System (ADS)

    Novak, Elena; Wisdom, Sonya

    2018-05-01

    3D printing technology is a powerful educational tool that can promote integrative STEM education by connecting engineering, technology, and applications of science concepts. Yet, research on the integration of 3D printing technology in formal educational contexts is extremely limited. This study engaged preservice elementary teachers (N = 42) in a 3D Printing Science Project that modeled a science experiment in the elementary classroom on why things float or sink using 3D printed boats. The goal was to explore how collaborative 3D printing inquiry-based learning experiences affected preservice teachers' science teaching self-efficacy beliefs, anxiety toward teaching science, interest in science, perceived competence in K-3 technology and engineering science standards, and science content knowledge. The 3D printing project intervention significantly decreased participants' science teaching anxiety and improved their science teaching efficacy, science interest, and perceived competence in K-3 technological and engineering design science standards. Moreover, an analysis of students' project reflections and boat designs provided an insight into their collaborative 3D modeling design experiences. The study makes a contribution to the scarce body of knowledge on how teacher preparation programs can utilize 3D printing technology as a means of preparing prospective teachers to implement the recently adopted engineering and technology standards in K-12 science education.

  4. Caring Enough to Teach Science. Helping Pre-service Teachers View Science Instruction as an Ethical Responsibility

    NASA Astrophysics Data System (ADS)

    Grinell, Smith; Rabin, Colette

    2017-11-01

    The goal of this project was to motivate pre-service elementary teachers to commit to spending significant instructional time on science in their future classrooms despite their self-assessed lack of confidence about teaching science and other impediments (e.g., high-stakes testing practices that value other subjects over science). Pre-service teachers in science methods courses explored connections between science and ethics, specifically around issues of ecological sustainability, and grappled with their ethical responsibilities as teachers to provide science instruction. Survey responses, student "quick-writes," interview transcripts, and field notes were analyzed. Findings suggest that helping pre-service teachers see these connections may shape their beliefs and dispositions in ways that may motivate them to embark on the long road toward improving their science pedagogical content knowledge and ultimately to teach science to their students more often and better than they otherwise might. The approach may also offer a way for teachers to attend to the moral work of teaching.

  5. Teaching with Visuals in the Science Classroom

    ERIC Educational Resources Information Center

    Cook, Michelle

    2012-01-01

    Visuals play an important role in the teaching and learning of science and should be embedded within and supportive of authentic science inquiry. Both researchers and teachers believe that visuals have a great deal of potential to help students understand science, but in practice, these visuals do not always live up to their promise. Teachers need…

  6. College student perceptions of science teachers and the effect on science teaching as a career path

    NASA Astrophysics Data System (ADS)

    Cost, Michael George

    2000-10-01

    Past research documented that student perceptions of scientists constituted a stereotypical image that had a negative effect on the students' attitudes towards science and resulted in low numbers of students studying to become scientists and engineers in college. The present study paralleled the research on student perceptions of scientists to investigate to what extent student perceptions of science teachers affect their willingness to consider science teaching as a career. This was accomplished by surveying 91 college students and 25 science teachers at the beginning, middle, and end of the collegiate career path of becoming a science teacher. Each survey contained quantitative data utilizing seven-point semantic differential scales and written open response questions. In-depth interviews with two members of each level were conducted to supplement the survey data. The study found that college students begin college with a positive perception of teaching as a career and highly rank teachers, especially science teachers, as having a positive influence on their career path. The qualities of job enjoyment, job stability, and helping others that are characteristic of teaching were also found to be of high importance. Perceptions of the personal, social, professional, and career qualities of a science teacher were found to differ from a scientist. While both science teachers and scientists were found to be responsible, persistent, and productive, science teachers were perceived as being a distinct career possessing qualities that make them more personable, sociable, and wise than scientists. Some gender differences were detected but there was no evidence of gender bias affecting students choosing a career path to science teaching. Science teachers were perceived to be very supportive of females pursuing scientific career paths. The study also found evidence that some introductory level college students steer away from science teaching because of low salary, the lack of

  7. An examination of the relationship among science teaching actions, beliefs, and knowledge of the nature of science

    NASA Astrophysics Data System (ADS)

    Chun, Sajin

    Scholars in science education advocate curriculum and instruction practices that reflect an understanding of the nature of science. This aspect of school science is an important component of scientific literacy, a primary goal of science education. Considering teaching as a thoughtful profession, there has been a growing research interest on the issue of the consistency between teacher beliefs and actions. Yet, the self-evident assumption that teachers' beliefs about the nature of science will impact on their classroom teaching actions has not been justified. The purpose of this study was to examine the relationship between science teaching actions and beliefs about the nature of science. Defining teacher beliefs as a broad construct, the researcher tried to examine not only teacher's cognitive understanding about the nature of science but also teachers' affect as well as actions with regard to the nature of science. Guiding research questions were as follows: (a) what are the teachers' beliefs about the nature of science; (b) how do the teachers, pedagogical actions reflect their beliefs about the nature of science; and (c) what are the other referent beliefs that mediate the teachers, pedagogical actions within a local school culture. The methodology of this study was an interpretive, qualitative approach that included multiple sources of data, interviews, classroom observations, and instructional materials. Six science teachers from a secondary school located in a rural area of the southeastern US were chosen by convenience. The cross-case study and the grounded theory study designs were adopted as the data analysis process. The constant comparative analysis method was used to generate the emerging themes for this study. This study revealed a gap between these teachers' personal beliefs of the nature of science and the concepts of the nature of science suggested by many researchers. These teachers' personal beliefs about the nature of science have been

  8. A flexible, multi-faceted, multi-media approach to teaching climate change to non-STEM majors

    NASA Astrophysics Data System (ADS)

    De Roo, R. D.; Liemohn, M. W.

    2011-12-01

    The University of Michigan offers a 100-level course entitled, "Our Changing Atmosphere," often taken to fulfill the natural science distribution credit requirement by up to 200 students in non-technical majors per term. This course covers the properties and structure of the atmosphere and how they are changing, emphasizing the global climate and climate change. After a brief introduction to atmospheric basics, highlights from Earth's climate history are presented, followed by modern-day changes to climate, such as air pollution, stratospheric ozone depletion, and global warming. The current format of the course relies heavily on Lecturebook, Lecturetools, and C-tools as online electronic resources for the class. The textbook for the course is managed through Lecturebook, which also provides hyperlinked text and hundreds of built-in questions for homework sets and student review. The recitation lessons are uploaded to Lecturebook, which allows for interactive question-and-answer sessions during class in multiple formats. The University of Michigan's C-tools environment is also used for email distribution and archiving, additional resource postings, and as a backup to these other two websites. The structure of the class permits different instructors to emphasize different facets of climate, and to employ different instructional techniques. For example, the textbook differs depending on the term the course is offered. One of us emphasizes good-vs-bad science usage via video, sound clip, or PDF posting on a weather or climate related topic in every lecture. Good-v-bad science usage of climate topics in research, media reporting, and casual conversation are all discussed by the students and included in the examinations. The other instructor emphasizes the findings of the IPCC, employs hands-on activities in lecture and eschews exams in favor of collaborative homework assignments. The assignments include qualitative and quantitative analyses of climate topics and the

  9. Undergraduates' Perceived Gains and Ideas about Teaching and Learning Science from Participating in Science Education Outreach Programs

    ERIC Educational Resources Information Center

    Carpenter, Stacey L.

    2015-01-01

    This study examined what undergraduate students gain and the ideas about science teaching and learning they develop from participating in K-12 science education outreach programs. Eleven undergraduates from seven outreach programs were interviewed individually about their experiences with outreach and what they learned about science teaching and…

  10. TeachAstronomy.com - Digitizing Astronomy Resources

    NASA Astrophysics Data System (ADS)

    Hardegree-Ullman, Kevin; Impey, C. D.; Austin, C.; Patikkal, A.; Paul, M.; Ganesan, N.

    2013-06-01

    Teach Astronomy—a new, free online resource—can be used as a teaching tool in non-science major introductory college level astronomy courses, and as a reference guide for casual learners and hobbyists. Digital content available on Teach Astronomy includes: a comprehensive introductory astronomy textbook by Chris Impey, Wikipedia astronomy articles, images from Astronomy Picture of the Day archives and (new) AstroPix database, two to three minute topical video clips by Chris Impey, podcasts from 365 Days of Astronomy archives, and an RSS feed of astronomy news from Science Daily. Teach Astronomy features an original technology called the Wikimap to cluster, display, and navigate site search results. Development of Teach Astronomy was motivated by steep increases in textbook prices, the rapid adoption of digital resources by students and the public, and the modern capabilities of digital technology. This past spring semester Teach Astronomy was used as content supplement to lectures in a massive, open, online course (MOOC) taught by Chris Impey. Usage of Teach Astronomy has been steadily growing since its initial release in August of 2012. The site has users in all corners of the country and is being used as a primary teaching tool in at least four states.

  11. Exploring Science Teaching Efficacy of CASE Curriculum Teachers: A Post-Then-Pre Assessment

    ERIC Educational Resources Information Center

    Ulmer, Jonathan D.; Velez, Jonathan J.; Lambert, Misty D.; Thompson, Greg W.; Burris, Scott; Witt, Phillip A.

    2013-01-01

    This descriptive-correlational study sought to investigate teachers' levels of Personal Science Teaching Efficacy (PSTE) and Science Teaching Outcome Expectancy (STOE) using the Science Teaching Efficacy Beliefs Instrument (STEBI). The population included all teachers completing a CASE Institute training session during summer 2010. Assessments…

  12. Paper-and-Pencil Programming Strategy toward Computational Thinking for Non-Majors: Design Your Solution

    ERIC Educational Resources Information Center

    Kim, Byeongsu; Kim, Taehun; Kim, Jonghoon

    2013-01-01

    The paper-and-pencil programming strategy (PPS) is a way of representing an idea logically by any representation that can be created using paper and pencil. It was developed for non-computer majors to improve their understanding and use of computational thinking and increase interest in learning computer science. A total of 110 non-majors in their…

  13. The Development Desire of Non-English Major Teachers in Small Rural Primary Schools in Thailand: Participatory Action Research

    ERIC Educational Resources Information Center

    Doungprom, Usanee; Phusee-on, Songsak; Prachanant, Nawamin

    2016-01-01

    The purpose of this study was to explore some problems and desires of developing self-confidence in teaching English of non-English major teachers in rural small primary schools in Thailand with participatory action research. This study also aims to develop teacher's confidence in teaching English, enhance communicative competence and to assess…

  14. The inquiry continuum: Science teaching practices and student performance on standardized tests

    NASA Astrophysics Data System (ADS)

    Jernnigan, Laura Jane

    Few research studies have been conducted related to inquiry-based scientific teaching methodologies and NCLB-required state testing. The purpose of this study was to examine the relationship between the strategies used by seventh-grade science teachers in Illinois and student scores on the Illinois Standards Achievement Test (ISAT) to aid in determining best practices/strategies for teaching middle school science. The literature review defines scientific inquiry by placing teaching strategies on a continuum of scientific inquiry methodologies from No Inquiry (Direct Instruction) through Authentic Inquiry. Five major divisions of scientific inquiry: structured inquiry, guided inquiry, learning cycle inquiry, open inquiry, and authentic inquiry, have been identified and described. These five divisions contain eight sub-categories: demonstrations; simple or hands-on activities; discovery learning; variations of learning cycles; problem-based, event-based, and project-based; and student inquiry, science partnerships, and Schwab's enquiry. Quantitative data were collected from pre- and posttests and surveys given to the participants: five seventh grade science teachers in four Academic Excellence Award and Spotlight Award schools and their 531 students. Findings revealed that teachers reported higher inquiry scores for themselves than for their students; the two greatest reported factors limiting teachers' use of inquiry were not enough time and concern about discipline and large class size. Although the correlation between total inquiry and mean difference of pre- and posttest scores was not statistically significant, the survey instrument indicated how often teachers used inquiry in their classes, not the type of inquiry used. Implications arose from the findings that increase the methodology debate between direction instruction and inquiry-based teaching strategies; teachers are very knowledgeable about the Illinois state standards, and various inquiry-based methods

  15. Teaching children the structure of science

    NASA Astrophysics Data System (ADS)

    Börner, Katy; Palmer, Fileve; Davis, Julie M.; Hardy, Elisha; Uzzo, Stephen M.; Hook, Bryan J.

    2009-01-01

    Maps of the world are common in classroom settings. They are used to teach the juxtaposition of natural and political functions, mineral resources, political, cultural and geographical boundaries; occurrences of processes such as tectonic drift; spreading of epidemics; and weather forecasts, among others. Recent work in scientometrics aims to create a map of science encompassing our collective scholarly knowledge. Maps of science can be used to see disciplinary boundaries; the origin of ideas, expertise, techniques, or tools; the birth, evolution, merging, splitting, and death of scientific disciplines; the spreading of ideas and technology; emerging research frontiers and bursts of activity; etc. Just like the first maps of our planet, the first maps of science are neither perfect nor correct. Today's science maps are predominantly generated based on English scholarly data: Techniques and procedures to achieve local and global accuracy of these maps are still being refined, and a visual language to communicate something as abstract and complex as science is still being developed. Yet, the maps are successfully used by institutions or individuals who can afford them to guide science policy decision making, economic decision making, or as visual interfaces to digital libraries. This paper presents the process and results of creating hands-on science maps for kids that teaches children ages 4-14 about the structure of scientific disciplines. The maps were tested in both formal and informal science education environments. The results show that children can easily transfer their (world) map and concept map reading skills to utilize maps of science in interesting ways.

  16. Toward using games to teach fundamental computer science concepts

    NASA Astrophysics Data System (ADS)

    Edgington, Jeffrey Michael

    Video and computer games have become an important area of study in the field of education. Games have been designed to teach mathematics, physics, raise social awareness, teach history and geography, and train soldiers in the military. Recent work has created computer games for teaching computer programming and understanding basic algorithms. We present an investigation where computer games are used to teach two fundamental computer science concepts: boolean expressions and recursion. The games are intended to teach the concepts and not how to implement them in a programming language. For this investigation, two computer games were created. One is designed to teach basic boolean expressions and operators and the other to teach fundamental concepts of recursion. We describe the design and implementation of both games. We evaluate the effectiveness of these games using before and after surveys. The surveys were designed to ascertain basic understanding, attitudes and beliefs regarding the concepts. The boolean game was evaluated with local high school students and students in a college level introductory computer science course. The recursion game was evaluated with students in a college level introductory computer science course. We present the analysis of the collected survey information for both games. This analysis shows a significant positive change in student attitude towards recursion and modest gains in student learning outcomes for both topics.

  17. Saudi Elementary School Science Teachers' Beliefs: Teaching Science in the New Millennium

    ERIC Educational Resources Information Center

    Alghamdi, Amani K. Hamdan; Al-Salouli, Misfer Saud

    2013-01-01

    This study explored Saudi elementary school science teachers' beliefs about the process of teaching and learning science. This involved the exploration of their views about the new Saudi science curriculum, which emphasizes critical thinking and problem solving. Comprehensive interviews were held in 8 schools with 4 male and 6 female--2 of whom…

  18. Measuring Primary Teachers' Attitudes toward Teaching Science: Development of the Dimensions of Attitude toward Science (DAS) Instrument

    ERIC Educational Resources Information Center

    van Aalderen-Smeets, Sandra; Walma van der Molen, Juliette

    2013-01-01

    In this article, we present a valid and reliable instrument which measures the attitude of in-service and pre-service primary teachers toward teaching science, called the Dimensions of Attitude Toward Science (DAS) Instrument. Attention to the attitudes of primary teachers toward teaching science is of fundamental importance to the…

  19. (The Ethics of) Teaching Science and Ethics: A Collaborative Proposal.

    PubMed

    Kabasenche, William P

    2014-12-01

    I offer a normative argument for a collaborative approach to teaching ethical issues in the sciences. Teaching science ethics requires expertise in at least two knowledge domains-the relevant science(s) and philosophical ethics. Accomplishing the aims of ethics education, while ensuring that science ethics discussions remain grounded in the best empirical science, can generally best be done through collaboration between a scientist and an ethicist. Ethics as a discipline is in danger of being misrepresented or distorted if presented by someone who lacks appropriate disciplinary training and experience. While there are exceptions, I take philosophy to be the most appropriate disciplinary domain in which to gain training in ethics teaching. Science students, who must be prepared to engage with many science ethics issues, are poorly served if their education includes a misrepresentation of ethics or specific issues. Students are less well prepared to engage specific issues in science ethics if they lack an appreciation of the resources the discipline of ethics provides. My collaborative proposal looks at a variety of ways scientists and ethicists might collaborate in the classroom to foster good science ethics education.

  20. The Science of Human Interaction and Teaching

    ERIC Educational Resources Information Center

    Yano, Kazuo

    2013-01-01

    There is a missing link between our understanding of teaching as high-level social phenomenon and teaching as a physiological phenomenon of brain activity. We suggest that the science of human interaction is the missing link. Using over one-million days of human-behavior data, we have discovered that "collective activenes" (CA), which indicates…

  1. "I'd Need To Do A Lot Of Reading Myself before Teaching This." How Do Primary Student Teachers Know What Science To Teach?

    ERIC Educational Resources Information Center

    Smith, Robin; Lloyd, Jane

    The subject knowledge primary teachers have as a basis for their teaching has become a major concern in preservice and inservice teacher education. This paper reports on a study that investigated the science and pedagogical content knowledge of a sample of 42 preservice primary teachers in England. Assignments and questionnaires were used to…

  2. Teaching students ideas-about-science: Five dimensions of effective practice

    NASA Astrophysics Data System (ADS)

    Bartholomew, Hannah; Osborne, Jonathan; Ratcliffe, Mary

    2004-09-01

    In this paper, we report work undertaken with a group of 11 UK teachers over a period of a year to teach aspects of the nature of science, its process, and its practices. The teachers, who taught science in a mix of elementary, junior high, and high schools, were asked to teach a set of ideas-about-scienc for which consensual support had been established using a Delphi study in the first phase of the project. Data were collected through field notes, videos of the teachers' lessons, teachers' reflective diaries, and instruments that measured their understanding of the nature of science and their views on the role and value of discussion in the classroom. In this paper, drawing on a sample of the data we explore the factors that afforded or inhibited the teachers' pedagogic performance in this domain. Using these data, we argue that there are five critical dimensions that distinguish and determine a teacher's ability to teach effectively about science. Whilst these dimensions are neither mutually independent nor equally important, they serve as a valuable analytical tool for evaluating and explaining the success, or otherwise, that individual teachers of science have when confronted with teaching aspects about science. In addition, we argue that they are an important means of identifying salient aspects of pedagogy for initial and in-service training of science teachers for curricula that incorporate elements of ideas-about-science

  3. A case of learning to teach elementary science: Investigating beliefs, experiences, and tensions

    NASA Astrophysics Data System (ADS)

    Bryan, Lynn Ann

    This study examines how preservice elementary teacher beliefs and experiences within the context of reflective science teacher education influence the development of professional knowledge. From a cognitive constructivist theoretical perspective, I conducted a case analysis to investigate the beliefs about science teaching and learning held by a preservice teacher (Barbara), identify the tensions she encountered in learning to teach elementary science, understand the frames from which she identified problems of practice, and discern how her experiences influenced the process of reflecting on her own science teaching. From an analysis of interviews, observation, and written documents, I constructed a profile of Barbara's beliefs that consisted of three foundational and three dualistic beliefs about science teaching and learning. Her foundational beliefs concerned: (a) the value of science and science teaching, (b) the nature of scientific concepts and goals of science instruction, and (c) control in the science classroom. Barbara held dualistic beliefs about: (a) how children learn science, (b) the science students' role, and (c) the science teacher's role. The dualistic beliefs formed two contradictory nests of beliefs. One nest, grounded in life-long science learner experiences, reflected a didactic teaching orientation and predominantly guided her practice. The second nest, not well-grounded in experience, embraced a hands-on approach and predominantly guided her vision of practice. Barbara encountered tensions in thinking about science teaching and learning as a result of inconsistencies between her vision of science teaching and her actual practice. Confronting these tensions prompted Barbara to rethink the connections between her classroom actions and students' learning, create new perspectives for viewing her practice, and consider alternative practices more resonant with her visionary beliefs. However, the self-reinforcing belief system created by her

  4. Case study of science teaching in an elementary school: Characteristics of an exemplary science teacher

    NASA Astrophysics Data System (ADS)

    Kao, Huey-Lien

    Improving the quality of science teaching is one of the greatest concerns in recent science education reform efforts. Many science educators suggest that case studies of exemplary science teachers may provide guidance for these reform efforts. For this reason, the characteristics of exemplary science teaching practices have been identified in recent years. However, the literature lacks research exploring exemplary teacher beliefs about the nature of science and science pedagogy, the relationships between their beliefs and practices, or how outstanding teachers overcome difficulties in order to facilitate their students' science learning. In this study, Sam-Yu, an identified exemplary science teacher who teaches in an elementary school in Pintung, Taiwan, was the subject. An interpretative research design (Erickson, 1986) based on principles of naturalistic inquiry (Lincoln & Guba, 1985) was used. Both qualitative and quantitative methods were employed in this case study. The qualitative method involved conducting interviews with the teacher and students, observing classroom activities and analyzing the structure of the learning materials. The quantitative methods involved using the Learning Climate Inventory (LCI) (Lin, 1997) instrument to assess the learning environment of the exemplary science classroom. This study found that Sam-Yu had a blend of views on the nature of science and a varied knowledge about science pedagogy. Personal preferences, past experiences, and the national science curriculum all played important roles in the development and refinement of Sam-Yu's beliefs about science and pedagogy. Regarding his teaching practices, Sam-Yu provided the best learning experiences, as evidenced in both classroom observations and the survey results, for his students by using a variety of strategies. In addition, his classroom behaviors were highly associated with his beliefs about science and pedagogy. However, due to school-based and socio-cultural constraints

  5. Evaluation of Pre-Service Teachers' Images of Science Teaching in Turkey

    ERIC Educational Resources Information Center

    Yilmaz, Hulya; Turkmen, Hakan; Pedersen, Jon E.; Huyuguzel Cavas, Pinar

    2007-01-01

    The purpose of this study is to investigate elementary pre-service teachers' image of science teaching, analyze the gender differences in image of science teaching, and evaluate restructured 2004 education reform by using a Draw-A-Science-Teacher-Test Checklist (DASTT-C). Two hundred thirteen (213) pre-service elementary teachers from three…

  6. A Science Faculty's Transformation of Nature of Science Understanding into His Teaching Graduate Level Chemistry Course

    ERIC Educational Resources Information Center

    Aydin, Sevgi

    2015-01-01

    This is an interpretive case study to examine the teaching of an experienced science faculty who had a strong interest in teaching undergraduate and graduate science courses and nature of science specifically. It was interested in how he transformed knowledge from his experience as a scientist and his ideas about nature of science into forms…

  7. Resilience of Science Teaching Philosophies and Practice in Early Career Primary Teaching Graduates

    ERIC Educational Resources Information Center

    Bartholomew, Rex; Anderson, Dayle; Moeed, Azra

    2012-01-01

    There has been recent concern over the variable quality of science teaching in New Zealand primary schools. One reason suggested has been the relatively low levels of science education components in initial teacher education (ITE) programmes. This paper follows a cohort of recent teacher graduates from a science education course in their ITE…

  8. `You Have to Give Them Some Science Facts': Primary Student Teachers' Early Negotiations of Teacher Identities in the Intersections of Discourses About Science Teaching and About Primary Teaching

    NASA Astrophysics Data System (ADS)

    Danielsson, Anna T.; Warwick, Paul

    2014-04-01

    In the broadest sense, the goal for primary science teacher education could be described as preparing these teachers to teach for scientific literacy. Our starting point is that making such science teaching accessible and desirable for future primary science teachers is dependent not only on their science knowledge and self-confidence, but also on a whole range of interrelated sociocultural factors. This paper aims to explore how intersections between different Discourses about primary teaching and about science teaching are evidenced in primary school student teachers' talk about becoming teachers. The study is founded in a conceptualisation of learning as a process of social participation. The conceptual framework is crafted around two key concepts: Discourse (Gee 2005) and identity (Paechter, Women's Studies International Forum, 26(1):69-77, 2007). Empirically, the paper utilises semi-structured interviews with 11 primary student teachers enrolled in a 1-year Postgraduate Certificate of Education course. The analysis draws on five previously identified teacher Discourses: `Teaching science through inquiry', `Traditional science teacher', `Traditional primary teacher', `Teacher as classroom authority', and `Primary teacher as a role model' (Danielsson and Warwick, International Journal of Science Education, 2013). It explores how the student teachers, at an early stage in their course, are starting to intersect these Discourses to negotiate their emerging identities as primary science teachers.

  9. The investigation of science teachers’ experience in integrating digital technology into science teaching

    NASA Astrophysics Data System (ADS)

    Agustin, R. R.; Liliasari; Sinaga, P.; Rochintaniawati, D.

    2018-05-01

    The use of technology into science learning encounters problems. One of the problem is teachers’ less technological pedagogical and content knowledge (TPACK) on the implementation of technology itself. The purpose of this study was to investigate science teachers’ experience in using digital technology into science classroom. Through this study science teachers’ technological knowledge (TK) and technological content knowledge (TCK) can be unpacked. Descriptive method was used to depict science teachers’ TK and TCK through questionnaire that consisted of 20 questions. Subjects of this study were 25 science teachers in Bandung, Indonesia. The study was conducted in the context of teacher professional training. Result shows that science teachers still have less TK, yet they have high TCK. The teachers consider characteristics of concepts as main aspect for implementing technology into science teaching. This finding describes teachers’ high technological content knowledge. Meanwhile, science teachers’ technological knowledge was found to be still low since only few of them who can exemplify digital technology that can be implemented into several science concept. Therefore, training about technology implementation into science teaching and learning is necessary as a means to improve teachers’ technological knowledge.

  10. Do Gender-Science Stereotypes Predict Science Identification and Science Career Aspirations among Undergraduate Science Majors?

    ERIC Educational Resources Information Center

    Cundiff, Jessica L.; Vescio, Theresa K.; Loken, Eric; Lo, Lawrence

    2013-01-01

    The present research examined whether gender-science stereotypes were associated with science identification and, in turn, science career aspirations among women and men undergraduate science majors. More than 1,700 students enrolled in introductory science courses completed measures of gender-science stereotypes (implicit associations and…

  11. "Look at what I am saying": Multimodal science teaching

    NASA Astrophysics Data System (ADS)

    Pozzer-Ardenghi, Lilian

    Language constitutes the dominant representational mode in science teaching, and lectures are still the most prevalent of the teaching methods in school science. In this dissertation, I investigate lectures from a multimodal and communicative perspective to better understand how teaching as a cultural-historical and social activity unfolds; that is, I am concerned with teaching as a communicative event, where a variety of signs (or semiotic resources), expressed in diverse modalities (or modes of communication) are produced and reproduced while the teacher articulates very specific conceptual meanings for the students. Within a trans-disciplinary approach that merges theoretical and methodical frameworks of social and cultural studies of human activity and interaction, communicative and gestures studies, linguistics, semiotics, pragmatics, and studies on teaching and learning science, I investigate teaching as a communicative, dynamic, multimodal, and social activity. My research questions include: What are the resources produced and reproduced in the classroom when the teacher is lecturing? How do these resources interact with each other? What meanings do they carry and how are these associated to achieve the coherence necessary to accomplish the communication of complex and abstract scientific concepts, not only within one lecture, but also within an entire unit of the curricula encompassing various lectures? My results show that, when lecturing, the communication of scientific concepts occur along trajectories driven by the dialectical relation among the various semiotic resources a lecturer makes available that together constitute a unit---the idea. Speech, gestures, and other nonverbal resources are but one-sided expressions of a higher order communicative meaning unit. The iterable nature of the signs produced and reproduced during science lectures permits, supports, and encourages the repetition, variation, and translation of ideas, themes, and languages and

  12. Multiple case studies of STEM teachers' orientations to science teaching through engineering design

    NASA Astrophysics Data System (ADS)

    Rupp, Madeline

    The following master's thesis is composed of two manuscripts describing STEM teachers' orientations to science teaching through engineering within the context of the Science Learning through Engineering Design (SLED) partnership. The framework guiding both studies was science teaching orientations, a component of pedagogical content knowledge. Data were collected via semi-structured interviews, multi-day classroom observations, pre- and post-observation interviews, implementation plans, and written reflections. Data sources were analyzed to generate two orientations to science teaching through engineering design for each participant. The first manuscript illustrates a single case study conducted with a sixth grade STEM teacher. Results of this study revealed a detailed picture of the teacher's goals, practices, assessments, and general views when teaching science through engineering design. Common themes across the teacher's instruction were used to characterize her orientations to science teaching through engineering design. Overall, the teacher's orientations showed a shift in her practice from didactic to student-centered methods of teaching as a result of integrating engineering design-based curriculum. The second manuscript describes a comparative case study of two sixth grade SLED participants. Results of this study revealed more complex and diverse relationships between the teachers' orientations to teaching science through engineering design and their instruction. Participants' orientations served as filters for instruction, guided by their divergent purposes for science teaching. Furthermore, their orientations and resulting implementation were developed from knowledge gained in teacher education, implying that teacher educators and researchers can use this framework to learn more about how teachers' knowledge is used to integrate engineering and science practices in the K-12 classroom.

  13. An analysis of elementary teachers' perceptions of teaching science as inquiry

    NASA Astrophysics Data System (ADS)

    Domjan, Heather Nicole

    The purpose of this study is to describe elementary school teachers' perceptions of science as inquiry in science instruction. A descriptive survey research design was used to collect data regarding elementary science teachers' knowledge and beliefs related to inquiry and its role in science education. The written section of the survey was analyzed and interpreted descriptively through phenomenological data and the constant comparative method (Glaser & Strauss, 1967; Lincoln & Guba, 1985). The researcher used the constant comparative method to identify statements, perceptions, and impressions that occurred over time during the study (Janesick, 1994). Ninety-two elementary school teachers who teach science in a large suburban district southwest of Houston, Texas were administered a three part Understanding Science as Inquiry Survey (USAI) developed by the researcher. Participants communicated in writing personal definitions of inquiry in elementary science as well as determined to what extent inquiry was used in four elementary science classroom scenarios. The survey items were based on the following four components of inquiry described by Inquiry and the National Science Education Standards (2000): (1) conceptual knowledge, (2) process skills, (3) nature of science, and (4) affect. The study describes elementary school teachers' perceptions about science as inquiry. Conclusions for Part A of the USAI Survey indicate that participants define inquiry as: mostly process skills, some conceptual knowledge, and very little affect with no perception of the nature of science. The Likert scale ratings for the scenarios in Part B of the USAI Survey reveal that participants have varied perceptions regarding teaching science as inquiry. The written section of Part B reveals participants' perceptions to be similar to that of their Likert scale ratings except in scenario one. The researcher concludes that the participants in this study appear to have an incomplete understanding

  14. An Investigation of Science Teaching Practices in Indonesian Rural Secondary Schools

    NASA Astrophysics Data System (ADS)

    Wahyudi; Treagust, David F.

    2004-08-01

    This study reports on teaching practices in science classrooms of Indonesian lower secondary schools in rural areas. Using six schools from three districts in the province of Kalimantan Selatan as the sample, this study found that most teaching practices in science classrooms in rural schools were teacher-centred with students copying notes. However, the study also found unique teaching practices of an exemplary science teacher whose teaching style can be described as both student-centred and teacher-centred, with students encouraged to be active learners. Four features of exemplary teaching practices were identified: The teacher managed the classroom effectively; used a variety of questioning techniques; employed various teaching approaches instead of traditional methods; and created a favourable learning environment. Data from classroom observations, interviews with teachers, and students responses to a questionnaire were used to compare the exemplary teacher and his colleagues. This study identified internal factors that may affect teaching practices such as a teachers content knowledge and beliefs about teaching. Compared to the other teachers, the exemplary teacher possessed more content knowledge and had a relatively stronger belief in his ability to teach.

  15. Pre- and In-Service Preschool Teachers' Science Teaching Efficacy Beliefs

    ERIC Educational Resources Information Center

    Aslan, Durmus; Tas, Isil; Ogul, Irem Gürgah

    2016-01-01

    In this study, pre- and in-service preschool teachers' science teaching efficacy beliefs were investigated. The sample included 100 pre-service (50 first grades and 50 last grades) and 73 in-service preschool teachers. As a data collection tool "Science Teaching Efficacy Belief Instrument" was used. Findings indicated that in-service…

  16. [Legacy and promises from the teaching of Social Sciences in the Health field].

    PubMed

    Minayo, Maria Cecília de Souza

    2012-12-01

    The article analyzes the teaching and learning of social sciences in health sciences courses from the perspective of the curriculum and learning generated by research groups and thesis supervision activities. The author conducts a rereading of the classics and main contemporary scientists, based on the subarea's scientific output and her own personal experience as professor, researcher, and thesis supervisor. The article focuses on the tradition and teaching of the classics in social sciences, the main contemporary social theories, social sciences in health with an emphasis on teaching, and observations on the interface between teaching in social sciences and life sciences. The author concludes by highlighting the importance of work by social scientists in the health field and identifies the following problematic points: difficulties in dealing with mediations between the biological and the social; frequent subordination of foundations to techniques; and ideological and common-sense issues in the teaching and appropriation of Social Sciences in Health.

  17. Evaluating Science Education Reform via Fourth-Grade Students' Image of Science Teaching

    ERIC Educational Resources Information Center

    Yilmaz, Hulya; Turkmen, Hakan; Pedersen, Jon E.

    2008-01-01

    The purpose of this study was to investigate fourth-grade students image of current science teaching by using a Draw-A-Science-Teacher-Test Checklist (DASTT-C), and give a glance whether the new restructured science education reform in Turkey is implemented successfully or not. Fifty-five (34 girls and 21 boys) fourth-grade students from three…

  18. Teaching Research Ethics Better: Focus on Excellent Science, Not Bad Scientists

    PubMed Central

    Hunter, Lawrence

    2013-01-01

    Abstract A recent report of the United States’ Presidential Commission for the Study of Bioethical Issues highlights how important it is for the research community to enjoy the “earned confidence” of the public and how creating a “culture of responsibility” can contribute to that confidence. It identifies a major role for “creative, flexible, and innovative” ethics education in creating such a culture. Other recent governmental reports from various nations similarly call for a renewed emphasis on ethics education in the sciences. We discuss why some common approaches to ethics education in the graduate sciences fail to meet the goals envisioned in the reports and we describe an approach, animated by primary attention on excellent science as opposed to bad scientists, that we have employed in our ethics teaching that we think is better suited for inspiring and sustaining responsible, trustworthy science. PMID:23751025

  19. Teaching research ethics better: focus on excellent science, not bad scientists.

    PubMed

    Yarborough, Mark; Hunter, Lawrence

    2013-06-01

    A recent report of the United States' Presidential Commission for the Study of Bioethical Issues highlights how important it is for the research community to enjoy the "earned confidence" of the public and how creating a "culture of responsibility" can contribute to that confidence. It identifies a major role for "creative, flexible, and innovative" ethics education in creating such a culture. Other recent governmental reports from various nations similarly call for a renewed emphasis on ethics education in the sciences. We discuss why some common approaches to ethics education in the graduate sciences fail to meet the goals envisioned in the reports and we describe an approach, animated by primary attention on excellent science as opposed to bad scientists, that we have employed in our ethics teaching that we think is better suited for inspiring and sustaining responsible, trustworthy science. © 2013 Wiley Periodicals, Inc.

  20. Survey on Teaching Science to K-12 Students with Disabilities: Teacher Preparedness and Attitudes

    NASA Astrophysics Data System (ADS)

    Kahn, Sami; Lewis, Anna R.

    2014-12-01

    Students with disabilities are increasingly included in general education science classrooms and are expected to demonstrate academic proficiency on standardized assessments. Teacher preparation and attitudes have been cited as major factors contributing to either the success or failure of students with disabilities in science. In order to assess the current state of what could be facilitative or inhibitory influences, a national online survey to which 1,088 K-12 science teachers responded was conducted. Mixed methods' analyses suggest that science teachers receive little formal training and feel underprepared to teach students with disabilities. Results identify specific gaps in science teachers' education, as well as attitudinal and institutional barriers that may inhibit students with disabilities' success. However, science teachers remain highly receptive to training and collaboration. Implications for science teacher education are discussed.

  1. Creative Science Teaching Labs: New Dimensions in CPD

    ERIC Educational Resources Information Center

    Chappell, Kerry; Craft, Anna

    2009-01-01

    This paper offers analysis and evaluation of "Creative Science Teaching (CST) Labs III", a unique and immersive approach to science teachers' continuing professional development (CPD) designed and run by a London-based organisation, Performing Arts Labs (PAL), involving specialists from the arts, science and technology as integral. Articulating…

  2. Our Practice, Their Readiness: Teacher Educators Collaborate to Explore and Improve Preservice Teacher Readiness for Science and Math Instruction

    NASA Astrophysics Data System (ADS)

    Steele, Astrid; Brew, Christine; Rees, Carol; Ibrahim-Khan, Sheliza

    2013-02-01

    Since many preservice teachers (PTs) display anxiety over teaching math and science, four PT educators collaborated to better understand the PTs' background experiences and attitudes toward those subjects. The research project provided two avenues for professional learning: the data collected from the PTs and the opportunity for collaborative action research. The mixed method study focused on: the relationship between gender and undergraduate major (science versus non-science) with respect to previous and current engagement in science and math, understanding the processes of inquiry, and learning outside the classroom. A field trip to a science center provided the setting for the data collection. From a sample of 132 PTs, a multivariate analysis showed that the science major of PTs explained most of the gender differences with respect to the PTs' attitudes toward science and mathematics. The process of inquiry is generally poorly interpreted by PTs, and non-science majors prefer a more social approach in their learning to teach science and math. The four educators/collaborators reflect on the impacts of the research on their individual practices, for example, the need to: include place-based learning, attend to the different learning strategies taken by non-science majors, emphasize social and environmental contexts for learning science and math, be more explicit regarding the processes of science inquiry, and provide out-of-classroom experiences for PTs. They conclude that the collaboration, though difficult at times, provided powerful opportunities for examining individual praxis.

  3. Use Root Cause Analysis Teaching Strategy to Train Primary Pre-Service Science Teachers

    ERIC Educational Resources Information Center

    Lu, Chow-chin; Tsai, Chun-wei; Hong, Jon-chao

    2008-01-01

    This study examined the Root Cause Analysis (RCA) teaching strategy on pre-service primary science teachers and instinct pre-service teachers to apply RCA teaching strategy to science curriculums. RCA Teaching Strategy is to coordinates 5 Why Method and Fishbone Diagram. The participants included 18 pre-service primary science teachers and the…

  4. Pilot Program for Teaching Earth Science in New York

    NASA Astrophysics Data System (ADS)

    Nadeau, Patricia A.; Flores, Kennet E.; Ustunisik, Gokce; Zirakparvar, Nasser A.; Grcevich, Jana; Pagnotta, Ashley; Sessa, Jocelyn A.; Kinzler, Rosamond J.; Macdonald, Maritza; Mathez, Edmond; Mac Low, Mordecai-Mark

    2013-06-01

    During the 2009-2010 school year, 40% of New York City (NYC) Earth science teachers were not certified to teach Earth science [New York State Education Department (NYSED), 2011]. This highlights a longstanding shortage of certified teachers, which persists today and prevents many schools from offering courses on the subject, thus diminishing student opportunities to study or embark on careers in Earth science. More generally, the paucity of qualified, effective science teachers hinders student achievement in science, technology, engineering, and mathematics (STEM), and research has consistently shown that improving the quality of teaching substantially increases achievement in STEM-related fields [National Science Board, 2007]. With only 36% of NYC 8th graders scoring at or above the basic level of proficiency in science and with even lower scores for African-American and Hispanic students [Livingston and Wirt, 2005], the need for more qualified science teachers is clear.

  5. Dispositions Supporting Elementary Interns in the Teaching of Reform-Based Science Materials

    ERIC Educational Resources Information Center

    Eick, Charles J.; Stewart, Bethany

    2010-01-01

    Dispositions supporting the teaching of science as structured inquiry by four elementary candidates are presented. Candidates were studied during student teaching based on their positive attitudes toward teaching science with reform-based materials in their methods course. Personal learning histories informed their attitudes, values, and beliefs…

  6. The Learning Cycle and College Science Teaching.

    ERIC Educational Resources Information Center

    Barman, Charles R.; Allard, David W.

    Originally developed in an elementary science program called the Science Curriculum Improvement Study, the learning cycle (LC) teaching approach involves students in an active learning process modeled on four elements of Jean Piaget's theory of cognitive development: physical experience, referring to the biological growth of the central nervous…

  7. Teaching Science from Cultural Points of Intersection

    ERIC Educational Resources Information Center

    Grimberg, Bruna Irene; Gummer, Edith

    2013-01-01

    This study focuses on a professional development program for science teachers near or on American Indian reservations in Montana. This program was framed by culturally relevant pedagogy premises and was characterized by instructional strategies and content foci resulting from the intersection between three cultures: tribal, science teaching, and…

  8. Design of Knowledge Models for Teaching Experimental Sciences at University

    ERIC Educational Resources Information Center

    Pérez de Villarreal, Maider

    2018-01-01

    Teaching Experimental Sciences is a compulsory subject in the Bachelor's Degree in Primary Education (BDPE). It belongs to the discipline of Education and to the field of "Knowledge of the social and natural environment", and consists of a total of 24 ECTS, of which 6 ECTS correspond to "Teaching Natural Sciences" (TNS). This…

  9. NSTA Positions on Critical Issues Confronting the Science Teaching Profession

    ERIC Educational Resources Information Center

    Sci Teacher, 1970

    1970-01-01

    Presents National Science Teachers Association (NSTA) policy statements of 1968 and 1969 with respect to the (1) use of natural resources for teaching purposes, (2) use of live animals, (3) teaching of human reproduction and sexuality, (4) functions of science fairs, (5) teacher liability for laboratory safety and field trips, (6) national…

  10. A Non-science Major Undergraduate Seminar on the NASA Earth Observing System (EOS): A Student Perspective

    NASA Astrophysics Data System (ADS)

    Weatherford, V. L.; Redemann, J.

    2003-12-01

    Titled "Observing Climate Change From Space-what tools do we have?", this non-science major freshman seminar at UCLA is the culmination of a year-long interdisciplinary program sponsored by the Institute of the Environment and the College Honors programs at the University. Focusing on the anthropogenic and natural causes of climate change, students study climate forcings and learn about satellite and other technological means of monitoring climate and weather. NASA's Terra satellite is highlighted as one of the most recent and comprehensive monitoring systems put into space and the role of future NASA platforms in the "A-train"-constellation of satellites is discussed. Course material is typically presented in a Power-Point presentation by the instructor, with assigned supplementary reading to stimulate class discussion. In addition to preparing lectures for class presentation, students work on a final term paper and oral presentation which constitutes the majority of their grade. Field trips to the San Gabriel mountains to take atmospheric measurements with handheld sunphotometers and to JPL, Pasadena (CA) to listen to a NASA scientist discuss the MISR instrument aboard the Terra satellite help bring a real-world perspective to the science learned in the classroom. In this paper, we will describe the objectives and structure of this class and present measurement results taken during the field trip to the San Gabriel Mountains. In this context we will discuss the potential relevance of hands-on experience to meeting class objectives and give a student perspective of the overall class experience.

  11. Towards a Competency Model for Teaching Computer Science

    ERIC Educational Resources Information Center

    Bender, Elena; Hubwieser, Peter; Schaper, Niclas; Margaritis, Melanie; Berges, Marc; Ohrndorf, Laura; Magenheim, Johannes; Schubert, Sigrid

    2015-01-01

    To address the special challenges of teaching computer science, adequate development of teachers' competencies during their education is extremely important. In particular, pedagogical content knowledge and teachers' beliefs and motivational orientations play an important role in effective teaching. This research field has been sparsely…

  12. The Teaching Practices Inventory: A New Tool for Characterizing College and University Teaching in Mathematics and Science

    ERIC Educational Resources Information Center

    Wieman, Carl; Gilbert, Sarah

    2014-01-01

    We have created an inventory to characterize the teaching practices used in science and mathematics courses. This inventory can aid instructors and departments in reflecting on their teaching. It has been tested with several hundred university instructors and courses from mathematics and four science disciplines. Most instructors complete the…

  13. Teaching climate change in undergraduate courses

    NASA Astrophysics Data System (ADS)

    Sadler, Michael

    2013-04-01

    Although anthropogenic climate change is generally accepted in the scientific community, there is considerable skepticism among the general population and, therefore, in undergraduate students of all majors. Students are often asked by their peers, family members, and others, whether they ``believe'' climate change is occurring and what should be done about it (if anything). I will present my experiences and recommendations for teaching the physics of climate change to both physics and non-science majors. For non-science majors, the basic approach is to try to develop an appreciation for the scientific method (particularly peer-reviewed research) in a course on energy and the environment. For physics majors, the pertinent material is normally covered in their undergraduate courses in modern physics and thermodynamics. Nevertheless, it helps to review the basics, e.g. introductory quantum mechanics (discrete energy levels of atomic systems), molecular spectroscopy, and blackbody radiation. I have done this in a separate elective topics course, titled ``Physics of Climate Change,'' to help the students see how their knowledge gives them insight into a topic that is very volatile (socially and politically).

  14. Emphasizing Morals, Values, Ethics, and Character Education in Science Education and Science Teaching

    ERIC Educational Resources Information Center

    Chowdhury, Mohammad

    2016-01-01

    This article presents the rationale and arguments for the presence of morals, values, ethics and character education in science curriculum and science teaching. The author examines how rapid science and technological advancements and globalization are contributing to the complexities of social life and underpinning the importance of morals, values…

  15. Munazza's story: Understanding science teaching and conceptions of the nature of science in Pakistan through a life history study

    NASA Astrophysics Data System (ADS)

    Halai, Nelofer

    In this study I have described and tried to comprehend how a female science teacher understands her practice. Additionally, I have developed some understanding of her understanding of the nature of science. While teaching science, a teacher projects messages about the nature of science that can be captured by observations and interviews. Furthermore, the manner is which a teacher conceptualizes science for teaching, at least in part, depends on personal life experiences. Hence, I have used the life history method to understand Munazza's practice. Munazza is a young female science teacher working in a private, co-educational school for children from middle income families in Karachi, Pakistan. Her stories are central to the study, and I have represented them using a number of narrative devices. I have woven in my own stories too, to illustrate my perspective as a researcher. The data includes 13 life history interviews and many informal conversations with Munazza, observations of science teaching in classes seven and eight, and interviews with other science teachers and administrative staff of the school. Munazza's personal biography and experiences of school and undergraduate courses has influenced the way she teaches. It has also influenced the way she does not teach. She was not inspired by her science teachers, so she has tried not to teach the way she was taught science. Contextual factors, her conception of preparation for teaching as preparation for subject content and the tension that she faces in balancing care and control in her classroom are some factors that influence her teaching. Munazza believes that science is a stable, superior and value-free way of knowing. In trying to understand the natural world, observations come first, which give reliable information about the world leading inductively to a "theory". Hence, she relies a great deal on demonstrations in the class where students "see" for themselves and abstract the scientific concept from the

  16. The relationship between school environment, preservice science teachers' science teaching self-efficacy, and their use of instructional strategies at teachers' colleges in Saudi Arabia

    NASA Astrophysics Data System (ADS)

    Alshalaan, Nasser A.

    Studies indicate that many teachers have negative beliefs about science, which translates into low teacher efficacy, resulting in avoidance of science teaching or in ineffective science teaching behaviors. Highly efficacious teachers have been found to be more likely to use inquiry and student-centered teaching strategies, while teachers with a low sense of science-teaching efficacy are more likely to use teacher-directed strategies, such as didactic lectures and reading from the textbook (Czemiak, 1990). The purpose of this study was to investigate preservice science teachers' science-teaching self-efficacy changes and their correlation to teaching environment factors during the student teaching semester. Moreover, it explains how teaching environment factors and preservice teachers' science-teaching self-efficacy beliefs may relate to their use of teaching strategies in the science classroom during their student teacher training at teachers' colleges in Saudi Arabia. The population of this study is consisted of 184 middle and elementary preservice science teachers who were doing their student teaching at nine teachers' colleges (i.e., teachers' colleges of Riyadh, Dammam, Alrras, Almadinah, Alihsa, Jeddah, Makah, Altaief, and Abha) in Saudi Arabia during the spring semester of 2005. Three instruments were used to collect data for this study: (1) to measure science teaching self-efficacy, the researcher adapted the Science Teaching Efficacy Belief Instrument form B designed specifically for preservice teachers (STEBI-B); (2) to measure the school environment, the researcher adapted the Organizational Health Inventory (OHI), developed by Hoy, Tarter & Kottkamp (1991); and (3) to measure the type and frequency of instructional strategies that preservice science teachers use in the classroom, the researcher adapted the teaching practice subscale from The Local Systemic Change through Teacher Enhancement Science K-8 Teacher Questionnaire (Horizon Research, Inc., 2000

  17. Effect of structure in problem based learning on science teaching efficacy beliefs and science content knowledge of elementary preservice teachers

    NASA Astrophysics Data System (ADS)

    Sasser, Selena Kay

    This study examined the effects of differing amounts of structure within the problem based learning instructional model on elementary preservice teachers' science teaching efficacy beliefs, including personal science teaching efficacy and science teaching outcome expectancy, and content knowledge acquisition. This study involved sixty (60) undergraduate elementary preservice teachers enrolled in three sections of elementary science methods classes at a large Midwestern research university. This study used a quasi-experimental nonequivalent design to collect and analyze both quantitative and qualitative data. Participants completed instruments designed to assess science teaching efficacy beliefs, science background, and demographic data. Quantitative data from pre and posttests was obtained using the science teaching efficacy belief instrument-preservice (STEBI-B) developed by Enochs and Riggs (1990) and modified by Bleicher (2004). Data collection instruments also included a demographic questionnaire, an analytic rubric, and a structured interview; both created by the researcher. Quantitative data was analyzed by conducting ANCOVA, paired samples t-test, and independent samples t-test. Qualitative data was analyzed using coding and themes. Each of the treatment groups received the same problem scenario, one group experienced a more structured PBL setting, and one group experienced a limited structure PBL setting. Research personnel administered pre and posttests to determine the elementary preservice teachers' science teaching efficacy beliefs. The results show elementary preservice teachers'science teaching efficacy beliefs can be influence by the problem based learning instructional model. This study did not find that the amount of structure in the form of core ideas to consider and resources for further research increased science teaching efficacy beliefs in this sample. Results from the science content knowledge rubric indicated that structure can increase

  18. "I Didn't Always Perceive Myself as a "Science Person"": Examining Efficacy for Primary Science Teaching

    ERIC Educational Resources Information Center

    Mansfield, Caroline F.; Woods-McConney, Amanda

    2012-01-01

    Teacher efficacy has become an important field of research especially in subjects teachers may find challenging, such as science. This study investigates the sources of teachers' efficacy for teaching science in primary schools in the context of authentic teaching situations with a view to better understanding sources of teachers' efficacy…

  19. Pre-Service Science Teachers' Views about Teaching Theories and Methods

    ERIC Educational Resources Information Center

    Gürbüz, Fatih; Töman, Ufuk; Aksoy, Gökhan; Çimer, Sabiha Odabasi

    2013-01-01

    The purpose of this study is to explore the secondary school pre-service science teachers' views about teaching theories and methods. Qualitative research method and purposeful sampling were used in the study. The participants of the study were the five students in the final year of their studies in Science Teaching Department of Bayburt Education…

  20. Learning to teach science for social justice in urban schools

    NASA Astrophysics Data System (ADS)

    Vora, Purvi

    This study looks at how beginner teachers learn to teach science for social justice in urban schools. The research questions are: (1) what views do beginner teachers hold about teaching science for social justice in urban schools? (2) How do beginner teachers' views about teaching science for social justice develop as part of their learning? In looking at teacher learning, I take a situative perspective that defines learning as increased participation in a community of practice. I use the case study methodology with five teacher participants as the individual units of analysis. In measuring participation, I draw from mathematics education literature that offers three domains of professional practice: Content, pedagogy and professional identity. In addition, I focus on agency as an important component of increased participation from a social justice perspective. My findings reveal two main tensions that arose as teachers considered what it meant to teach science from a social justice perspective: (1) Culturally responsive teaching vs. "real" science and (2) Teaching science as a political act. In negotiating these tensions, teachers drew on a variety of pedagogical and conceptual tools offered in USE that focused on issues of equity, access, place-based pedagogy, student agency, ownership and culture as a toolkit. Further, in looking at how the five participants negotiated these tensions in practice, I describe four variables that either afforded or constrained teacher agency and consequently the development of their own identity and role as socially just educators. These four variables are: (1) Accessing and activating social, human and cultural capital, (2) reconceptualizing culturally responsive pedagogical tools, (3) views of urban youth and (4) context of participation. This study has implications for understanding the dialectical relationship between agency and social justice identity for beginner teachers who are learning how to teach for social justice. Also

  1. "You Have to Give Them Some Science Facts": Primary Student Teachers' Early Negotiations of Teacher Identities in the Intersections of Discourses about Science Teaching and about Primary Teaching

    ERIC Educational Resources Information Center

    Danielsson, Anna T.; Warwick, Paul

    2014-01-01

    In the broadest sense, the goal for primary science teacher education could be described as preparing these teachers to teach for scientific literacy. Our starting point is that making such science teaching accessible and desirable for future primary science teachers is dependent not only on their science knowledge and self-confidence, but also on…

  2. Modeling Sources of Teaching Self-Efficacy for Science, Technology, Engineering, and Mathematics Graduate Teaching Assistants.

    PubMed

    DeChenne, Sue Ellen; Koziol, Natalie; Needham, Mark; Enochs, Larry

    2015-01-01

    Graduate teaching assistants (GTAs) in science, technology, engineering, and mathematics (STEM) have a large impact on undergraduate instruction but are often poorly prepared to teach. Teaching self-efficacy, an instructor's belief in his or her ability to teach specific student populations a specific subject, is an important predictor of teaching skill and student achievement. A model of sources of teaching self-efficacy is developed from the GTA literature. This model indicates that teaching experience, departmental teaching climate (including peer and supervisor relationships), and GTA professional development (PD) can act as sources of teaching self-efficacy. The model is pilot tested with 128 GTAs from nine different STEM departments at a midsized research university. Structural equation modeling reveals that K-12 teaching experience, hours and perceived quality of GTA PD, and perception of the departmental facilitating environment are significant factors that explain 32% of the variance in the teaching self-efficacy of STEM GTAs. This model highlights the important contributions of the departmental environment and GTA PD in the development of teaching self-efficacy for STEM GTAs. © 2015 S. E. DeChenne et al. CBE—Life Sciences Education © 2015 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

  3. Elucidating elementary science teachers' conceptions of the nature of science: A view to beliefs about both science and teaching

    NASA Astrophysics Data System (ADS)

    Keske, Kristina Palmer

    The purpose of this interpretive case study was to elucidate the conceptions of the nature of science held by seven elementary science teachers. The constructivist paradigm provided the philosophical and methodological foundation for the study. Interviews were employed to collect data from the participants about their formal and informal experiences with science. In addition, the participants contributed their perspectives on four aspects of the nature of science: what is science; who is a scientist; what are the methods of science; and how is scientific knowledge constructed. Data analysis not only revealed these teachers' views of science, but also provided insights into how they viewed science teaching. Four themes emerged from the data. The first theme developed around the participants' portrayals of the content of science, with participant views falling on a continuum of limited to universal application of science as procedure. The second theme dealt with the participants' views of the absolute nature of scientific knowledge. Participants' perceptions of the tentative nature of science teaching provided the basis for the third theme concerning the need for absolutes in practice. The fourth theme drew parallels between participants' views of science and science teaching, with two participants demonstrating a consistency in beliefs about knowledge construction across contexts. This study revealed both personal and contextual factors which impacted how the participants saw science and science teaching. Many of the participants' memories of formal science revolved around the memorization of content and were viewed negatively. All the participants had limited formal training in science. Of the seven participants, only two had chosen to be science teachers at the beginning of their careers. The participants' limited formal experiences with science provided little time for exploration into historical, philosophical, and sociological studies of science, a necessary

  4. Developing a Tool to Evaluate Differences in Beliefs about Science Teaching and Learning among Freshman Science Student Teachers from Different Science Teaching Domains: A Case Study

    ERIC Educational Resources Information Center

    Markic, Silvija; Eilks, Ingo; Valanides, Nicos

    2008-01-01

    This paper presents a pilot case study on developing a qualitative tool to evaluate science student teachers' beliefs concerning science teaching and learning. The study is based on student teachers' drawings of themselves in a typical classroom situation and four open questions. Data was collected from 104 freshman science student teachers, and…

  5. What Science Teaching Looks Like: An International Perspective

    ERIC Educational Resources Information Center

    Roth, Kathleen; Garnier, Helen

    2007-01-01

    Using the Trends in International Mathematics and Science (TIMSS) video study, the authors compare science teaching practices in the United States and in four other countries that outperformed the United States: Australia, the Czech Republic, Japan, and the Netherlands. Their observations of videotapes from 100 8th-grade science lessons in each…

  6. Using a Multicultural Approach to Teach Chemistry and the Nature of Science to Undergraduate Non-Majors

    ERIC Educational Resources Information Center

    Goff, Peter; Boesdorfer, Sarah B.; Hunter, William

    2012-01-01

    This research documents the creation, implementation, and evaluation of a novel chemistry curriculum. The curriculum allowed students to create theories situated in a variety of cultures while they investigated chemical phenomena central to all civilizations; it was a way of synthesizing chemistry, the history and nature of science, inquiry, and…

  7. Three-Dimensional Instruction: Using a New Type of Teaching in the Science Classroom

    ERIC Educational Resources Information Center

    Krajcik, Joe

    2015-01-01

    Science teaching and learning in the United States are at a pivotal point. "A Framework for K-12 Science Education" (NRC 2012b) and the "Next Generation Science Standards" ("NGSS"; NGSS Lead States 2013) shift science educators' focus from simply teaching science ideas to helping students figure out phenomena and…

  8. Physics Teachers' Challenges in Using History and Philosophy of Science in Teaching

    NASA Astrophysics Data System (ADS)

    Henke, Andreas; Höttecke, Dietmar

    2015-05-01

    The inclusion of the history and philosophy of science (HPS) in science teaching is widely accepted, but the actual state of implementation in schools is still poor. This article investigates possible reasons for this discrepancy. The demands science teachers associate with HPS-based teaching play an important role, since these determine teachers' decisions towards implementing its practices and ideas. We therefore investigate the perceptions of 8 HPS-experienced German middle school physics teachers within and beyond an HPS implementation project. Within focused interviews these teachers describe and evaluate the challenges of planning and conducting HPS-based physics lessons using collaboratively developed HPS teaching materials. The teachers highlight a number of obstacles to the implementation of HPS specific to this approach: finding and adapting HPS teaching material, knowing and using instructional design principles for HPS lessons, presenting history in a motivating way, dealing with students' problematic ideas about the history of science, conducting open-ended historical classroom investigations in the light of known historical outcomes, using historical investigations to teach modern science concepts, designing assessments to target HPS-specific learning outcomes, and justifying the HPS-approach against curriculum and colleagues. Teachers' perceived demands point out critical aspects of pedagogical content knowledge necessary for confident, comfortable and effective teaching of HPS-based science. They also indicate how HPS teacher education and the design of curricular materials can be improved to make implementing HPS into everyday teaching less demanding.

  9. Perceptions and Practices of Culturally Relevant Science Teaching in American Indian Classrooms

    ERIC Educational Resources Information Center

    Nam, Younkyeong; Roehrig, Gillian; Kern, Anne; Reynolds, Bree

    2013-01-01

    This study explores the perceptions of culturally relevant science teaching of 35 teachers of American Indian students. These teachers participated in professional development designed to help them better understand climate change science content and teaching climate change using both Western science and traditional and cultural knowledge. Teacher…

  10. Using Science Fiction To Teach Mainstream Literature.

    ERIC Educational Resources Information Center

    Fife, Ernelle

    This paper illustrates several examples of visual science fiction use in teaching literary classics, and is based on the philosophy that students share a visual cultural literacy through movies and television, types of representation with which they are more familiar than with literary texts. It claims that visual science fiction can be utilized…

  11. Recent Research in Science Teaching and Learning

    ERIC Educational Resources Information Center

    Allen, Deborah

    2012-01-01

    This article features recent research in science teaching and learning. It presents three current articles of interest in life sciences education, as well as more general and noteworthy publications in education research. URLs are provided for the abstracts or full text of articles. For articles listed as "Abstract available," full text may be…

  12. In Brief: Science teaching certificate

    NASA Astrophysics Data System (ADS)

    Showstack, Randy

    2008-11-01

    More than 200 educators will receive fellowships over the next 5 years to participate in NASA's Endeavor Science Teaching Certificate Project, the agency announced on 14 November. Through workshops, online and on-site graduate courses, and NASA educational materials, the project will expose educators to NASA science and engineering and support them in translating the information for use in classrooms. ``Through the program, educators will learn to deliver cutting-edge science into the classroom, promoting science, technology, engineering, and mathematics education,'' according to Joyce Winterton, assistant administrator for education at NASA Headquarters, in Washington, D. C. Project fellows will earn a certificate from Teachers College Innovations at Teachers College, Columbia University, New York, and graduate credit from other institutional partners. For more information, visit http://education.nasa.gov/home/index.html.

  13. Ciencia en Nepantla: the journey of Nepantler@s in science learning and teaching

    NASA Astrophysics Data System (ADS)

    Aguilar-Valdez, Jean R.; LópezLeiva, Carlos A.; Roberts-Harris, Deborah; Torres-Velásquez, Diane; Lobo, Gilberto; Westby, Carol

    2013-12-01

    This paper presents a new approach to science education that takes a path through sociocultural theory and into the ideas of Gloria Anzaldúa. We apply Anzaldúan theory to science education by illustrating it in action through various examples which explore the multidimensionality of teaching science with Latin@ students in various contexts including dual language settings. We present what it is to journey through transformation using examples from educators at various levels of science within the world of teaching science with Latin@ students in the U.S. Our examples illustrate how Latin@ students cross many cultural borders in Spanish, English, Latin@ home culture, school culture, and the world of scientific dialogue and content, and in doing so, go through tensions and transformations between dominant and non-dominant worlds, which should be acknowledged and better understood through Anzaldúan theory. Fundamentally, we present a transformative notion of Latin@ science learning as "living on the bridges" of many dialogic and cultural practices, and having to negotiate these in-between spaces, or " nepantla" (Anzaldúa and Keating in Interviews, Psychology Press, London, 2000), where Latin@ students must contend with the fragmented and sometimes painful struggle of living in racialized reality amidst the demands of a dominant culture, and where transformation and healing are possible through the path of conocimiento. We advocate for teachers to become science teacher nepantler@s, who guide their students through nepantla, and into a new mestiz@ consciousness of science education.

  14. Elementary Teachers' Beliefs about Teaching Science and Classroom Practice: An Examination of Pre/Post NCLB Testing in Science

    ERIC Educational Resources Information Center

    Milner, Andrea R.; Sondergeld, Toni A.; Demir, Abdulkadir; Johnson, Carla C.; Czerniak, Charlene M.

    2012-01-01

    The impact of No Child Left Behind (NCLB) mandated state science assessment on elementary teachers' beliefs about teaching science and their classroom practice is relatively unknown. For many years, the teaching of science has been minimized in elementary schools in favor of more emphasis on reading and mathematics. This study examines the…

  15. Five male preservice elementary teachers: Their understandings, beliefs and practice regarding science teaching

    NASA Astrophysics Data System (ADS)

    Hoover, Barbara Grambo

    Many factors influence teacher choices concerning the frequency, instructional methods, and content of science teaching. Although the role of gender in science learning has been studied extensively, the gender of elementary teachers as it intersects their teaching of science has not been investigated. In this ethnographic study, I focused on five male preservice elementary teachers as they experienced their student teaching internship, aiming to understand their underlying beliefs about science and science teaching and how those beliefs influenced their practice. In an attempt to illuminate the complex interplay of personality, experience, interests, and gender in the professional lives of these men, this study emphasized the importance of context in the formation and expression of their science beliefs and pedagogy. For this reason, I collected data from a number of sources. From September, 2001 to May, 2002, I observed my participants in their science methods courses and on multiple occasions as they taught science in elementary classrooms in a suburban school district. I reviewed journal entries required for the science methods class and examined documents such as handouts, readings and teacher guides from their elementary teaching experience. I conducted semi-structured and informal interviews. I analyzed data from these sources using grounded theory methodology. Although these five men had many similarities, they differed in their love of science, their exposure to science, their avocational interests, and their views of science pedagogy. This study, however, revealed a unifying theme: each participant had his own set of personal and academic resources that he carried into the classroom and used to construct a distinctive science learning environment. Some of these resources intersect with gender. For example, several men had science-related avocational interests. There was a common emphasis on creating a relaxed, enjoyable, hands-on teaching environment as

  16. Science Teaching and Argumentation: One-sided versus dialectical argumentation in Chilean middle-school science lessons

    NASA Astrophysics Data System (ADS)

    Larrain, Antonia; Freire, Paulina; Howe, Christine

    2014-04-01

    Since the late 1990s, there has been consensus among educational researchers that argumentation should play a central role in science education. Although there has been extensive relevant research, it is not clear enough how oral argumentation spontaneously occurs in science teaching. This is particularly important with regard to the empirical evidence suggesting the effect of discussion of contradictory views on scientific learning. In order to contribute to the research on argumentation in science teaching, we conducted a study that aims to sketch a panoramic view of the uses of oral argumentation in Chilean middle-school science teaching. A total of 153 videotaped science lessons were observed, involving students aged 10-11 and 12-13. Whole-class argumentative discourse was analysed as a function of thematic episodes and teachers' and students' utterances. Results suggest that argumentative discourse in which contradictory points of view are discussed is scarce but when it occurs it does so predominantly within discourse among students. On the contrary, argumentation aimed at justifying points of view is widely used, even more so when students are older.

  17. Reflection after teaching a lesson: Experiences of secondary school science teachers

    NASA Astrophysics Data System (ADS)

    Halstead, Melissa A.

    Secondary science teachers spend most of their time planning, collaborating, and teaching, but spend little time reflecting after teaching a single lesson. The theoretical framework of the adult learning theory and the transformative learning theory was the basis of this study. This qualitative research study was conducted to understand the reflective experiences of secondary science educators after teaching a single or several lessons. The collection of data consisted of interviews from a group of purposefully selected secondary science teachers who met the criteria set forth by the researcher. Through a qualitative analysis of interviews and field notes, the researcher determined that the secondary science teachers in this study shared similar as well as different experiences regarding collaborative and individual reflection after teaching a single or several lessons. The findings from this study also suggested that secondary science educators prefer to collaboratively reflect and then reflect alone to allow for further thought. Additionally, a supportive school culture increases the secondary science teacher’s desire to engage in collaborative as well as individual reflection. The information from this study could be used to close the gaps that exist in the teacher professional development programs.

  18. Investigation the opinions of the primary science teachers toward practice of teaching and learning activities in science learning area

    NASA Astrophysics Data System (ADS)

    Chamnanwong, Pornpaka; Thathong, Kongsak

    2018-01-01

    In preparing a science lesson plan, teachers may deal with numerous difficulties. Having a deep understanding of their problems and their demands is extremely essential for the teachers in preparing themselves for the job. Moreover, it is also crucial for the stakeholders in planning suitable and in-need teachers' professional development programs, in school management, and in teaching aid. This study aimed to investigate the primary school science teachers' opinion toward practice of teaching and learning activities in science learning area. Target group was 292 primary science teachers who teach Grade 4 - 6 students in Khon Kaen Province, Thailand in the academic year of 2014. Data were collected using Questionnaire about Investigation the opinions of the primary science teachers toward practice of teaching and learning activities in science learning area. The questionnaires were consisted of closed questions scored on Likert scale and open-ended questions that invite a sentence response to cover from LS Process Ideas. Research findings were as follow. The primary science teachers' level of opinion toward teaching and learning science subject ranged from 3.19 - 3.93 (mean = 3.43) as "Moderate" level of practice. The primary school science teachers' needs to participate in a training workshop based on LS ranged from 3.66 - 4.22 (mean = 3.90) as "High" level. The result indicated that they were interested in attending a training course under the guidance of the Lesson Study by training on planning of management of science learning to solve teaching problems in science contents with the highest mean score 4.22. Open-ended questions questionnaire showed the needs of the implementation of the lesson plans to be actual classrooms, and supporting for learning Medias, innovations, and equipment for science experimentation.

  19. Deciding on Science: An Analysis of Higher Education Science Student Major Choice Criteria

    NASA Astrophysics Data System (ADS)

    White, Stephen Wilson

    The number of college students choosing to major in science, technology, engineering, and math (STEM) in the United States affects the size and quality of the American workforce (Winters, 2009). The number of graduates in these academic fields has been on the decline in the United States since the 1960s, which, according to Lips and McNeil (2009), has resulted in a diminished ability of the United States to compete in science and engineering on the world stage. The purpose of this research was to learn why students chose a STEM major and determine what decision criteria influenced this decision. According to Ajzen's (1991) theory of planned behavior (TPB), the key components of decision-making can be quantified and used as predictors of behavior. In this study the STEM majors' decision criteria were compared between different institution types (two-year, public four-year, and private four-year), and between demographic groups (age and sex). Career, grade, intrinsic, self-efficacy, and self-determination were reported as motivational factors by a majority of science majors participating in this study. Few students reported being influenced by friends and family when deciding to major in science. Science students overwhelmingly attributed the desire to solve meaningful problems as central to their decision to major in science. A majority of students surveyed credited a teacher for influencing their desire to pursue science as a college major. This new information about the motivational construct of the studied group of science majors can be applied to the previously stated problem of not enough STEM majors in the American higher education system to provide workers required to fill the demand of a globally STEM-competitive United States (National Academy of Sciences, National Academy of Engineering, & Institute of Medicine, 2010).

  20. Teaching Building Science with Simulations

    ERIC Educational Resources Information Center

    Hatherly, Amanda

    2017-01-01

    Teaching building science to community college students can be challenging given both the macro (houses change subject to varying seasons) and the micro (heat transfer, moisture movement) level of the topics taught. Simulations and games can provide a way of learning material that can otherwise be difficult for students to understand. In this…

  1. Science Lab Report Writing in Postsecondary Education: Mediating Teaching and Learning Strategies between Students and Instructors

    NASA Astrophysics Data System (ADS)

    Kalaskas, Anthony Bacaoat

    The lab report is a genre commonly assigned by lab instructors and written by science majors in undergraduate science programs. The teaching and learning of the lab report, however, is a complicated and complex process that both instructors and students regularly contend with. This thesis is a qualitative study that aims to mediate the mismatch between students and instructors by ascertaining their attitudes, beliefs, and values regarding lab report writing. In this way, this thesis may suggest changes to teaching and learning strategies that lead to an improvement of lab report writing done by students. Given that little research has been conducted in this area thus far, this thesis also serves as a pilot study. A literature review is first conducted on the history of the lab report to delineate its development since its inception into American postsecondary education in the late 19th century. Genre theory and Vygotsky's zone of proximal development (ZPD) serve as the theoretical lenses for this thesis. Surveys and interviews are conducted with biology majors and instructors in the Department of Biology at George Mason University. Univariate analysis and coding are applied to elucidate responses from participants. The findings suggest that students may lack the epistemological background to understand lab reports as a process of doing science. This thesis also finds that both instructors and students consider the lab report primarily as a pedagogical genre as opposed to an apprenticeship genre. Additionally, although instructors were found to have utilized an effective piecemeal teaching strategy, there remains a lack of empathy among instructors for students. Collectively, these findings suggest that instructors should modify teaching strategies to determine and address student weaknesses more directly.

  2. Co-teaching Perspectives from Secondary Science Co-teachers and Their Students with Disabilities

    NASA Astrophysics Data System (ADS)

    King-Sears, Margaret E.; Brawand, Anne Eichorn; Jenkins, Melissa C.; Preston-Smith, Shantha

    2014-10-01

    An in-depth case study of one team of co-teachers' practice from multiple perspectives is described. A high school science co-teaching team and their students with disabilities completed surveys about their perceptions of co-teaching. Additionally, observations of the two co-teachers occurred to determine roles and types of interactions for each co-teacher during science instruction. Observational data revealed effective teaching behaviors demonstrated by each co-teacher. Detailed descriptions of the co-teachers' instruction are provided. The science educator was observed interacting with the large group twice as often as the special educator. The science educator also presented new content nearly three times as often as the special educator. The co-teacher surveys were consistent with the observational data. Both educators disagreed that the special educator was primarily the lead for instruction. Both educators strongly agreed they had an effective co-teaching relationship, although the science educator indicated stronger agreement for parity in roles and responsibilities than the special educator noted. Forty-three percent of the students identified the science educator as in charge of lessons, while 43% identified both educators. Most students thought teaching was divided in half, and all students enjoyed having two teachers in science. Eighty-six percent of the students indicated team teaching was the most frequently used co-teaching model, and 14% indicated one teach, one drift. Implications for co-teachers' reflections on their collaboration, including the relevance of student perceptions (i.e., Who is the "real" teacher?), and the extent to which educators are prepared at preservice and inservice levels for co-teaching are discussed.

  3. Are Learning Assistants Better K-12 Science Teachers?

    NASA Astrophysics Data System (ADS)

    Gray, Kara E.; Webb, David C.; Otero, Valerie K.

    2010-10-01

    This study investigates how the undergraduate Learning Assistant (LA) experience affects teachers' first year of teaching. The LA Program provides interested science majors with the opportunity to explore teaching through weekly teaching responsibilities, an introduction to physics education research, and a learning community within the university. Some of these LAs are recruited to secondary science teacher certification programs. We hypothesized that the LA experience would enhance the teaching practices of the LAs who ultimately become teachers. To test this hypothesis, LAs were compared to a matched sample of teachers who completed the same teacher certification program as the LAs but did not have the LA "treatment." LAs and "non-LAs" were compared through interviews, classroom observations, artifact packages, and observations made with Reformed Teacher Observation Protocol (RTOP) collected within the first year of teaching. Some differences were found; these findings and their implications are discussed.

  4. How Select Groups of Preservice Science Teachers with Inquiry Orientations View Teaching and Learning Science through Inquiry

    NASA Astrophysics Data System (ADS)

    Ward, Peggy

    Although hailed as a powerful form of instruction, in most teaching and learning contexts, inquiry-based instruction is fraught with ambiguous and conflicting definitions and descriptions. Yet little has been written about the experiences preservice science teacher have regarding their learning to teach science through inquiry. This project sought to understand how select preservice secondary science teachers enrolled in three UTeach programs in Arkansas conceptualize inquiry instruction and how they rationalize its value in a teaching and learning context. The three teacher education programs investigated in this study are adoption sites aligned with the UTeach Program in Austin, TX that distinguishes itself in part by its inquiry emphasis. Using a mixed method investigation design, this study utilized two sources of data to explore the preservice science teachers' thinking. In the first phase, a modified version of the Pedagogy of Science teaching Tests (POSTT) was used to identify select program participants who indicated preferences for inquiry instruction over other instructional strategies. Secondly, the study used an open-ended questionnaire to explore the selected subjects' beliefs and conceptions of teaching and learning science in an inquiry context. The study also focused on identifying particular junctures in the prospective science teachers' education preparation that might impact their understanding about inquiry. Using a constant comparative approach, this study explored 19 preservice science teachers' conceptions about inquiry. The results indicate that across all levels of instruction, the prospective teachers tended to have strong student-centered teaching orientations. Except subjects in for the earliest courses, subjects' definitions and descriptions of inquiry tended toward a few of the science practices. More advanced subjects, however, expressed more in-depth descriptions. Excluding the subjects who have completed the program, multiple

  5. Elementary teachers' acquisition of science knowledge: Case-studies and implications for teaching preparation

    NASA Astrophysics Data System (ADS)

    Stein, Morton

    Elementary school is a key time for students to develop their understanding of basic science concepts as well as their attitudes towards science and science learning. Yet many elementary teachers do not feel comfortable teaching science; as a result, they are likely to devote less time on that subject and to be less effective as science teachers. The literature suggests that weaknesses in elementary teachers' knowledge of science could be a main cause of this problem and, furthermore, that current elementary teacher preparation programs have contributed to this weakness. This study aims at gaining more knowledge about how elementary teachers who are successful in teaching science have acquired their science content knowledge and how such knowledge could be best acquired, with the ultimate goal of informing the design of more effective elementary teacher preparation programs. More specifically, this study addresses the following research questions: Which science learning experiences for elementary teachers seem most conducive to develop the kind of science content knowledge and pedagogical content knowledge needed to support the teaching of science as called for by the most recent national and state standards? Which of these experiences should be included in elementary teacher preparation programs, and how? The core of this study consists of case studies of eight elementary school teachers who were identified as successful in teaching science. These subjects were selected so as to ensure differences in their teacher preparation programs, as well as gender and years of teaching experience. Information about each teacher's self-efficacy and motivation with respect to teaching science, history of pre-service and in-service preparation with respect to science, and how his/her current science knowledge was acquired, was sought through a series of interviews with each subject and triangulated with data collected from other sources. A cross-case analysis revealed some

  6. Artful Teaching and Science Investigations: A Perfect Match

    ERIC Educational Resources Information Center

    McGee, Christy

    2018-01-01

    Tomlinson's explanation of Artful Teaching and her 2017 expansion of this concept The Five Key Elements of Differentiation provide the theoretical framework of this examination of the need for science investigations in elementary schools. The Artful Teaching framework uses an equilateral triangle with vertices labeled The Teacher, The Student, and…

  7. Influencing Science Teaching Self-Efficacy Beliefs of Primary School Teachers: A Longitudinal Case Study

    ERIC Educational Resources Information Center

    McKinnon, Merryn; Lamberts, Rod

    2014-01-01

    The science teaching self-efficacy beliefs of primary school teachers influence teaching practice. The purpose of this research was to determine if informal education institutions, such as science centres, could provide professional development that influences the science teaching self-efficacy beliefs of pre-service and in-service primary school…

  8. STS-based education in non-majors college biology

    NASA Astrophysics Data System (ADS)

    Henderson, Phyllis Lee

    The study explored the effect of the science-technology-society (STS) and traditional teaching methods in non-majors biology classes at a community college. It investigated the efficacy of the two methods in developing cognitive abilities at Bloom's first three levels of learning. It compared retention rates in classes taught in the two methods. Changes in student attitude relating to anxiety, fear, and interest in biology were explored. The effect of each method on grade attainment among men and women was investigated. The effect of each method on grade attainment among older and younger students was examined. Results of the study indicated that no significant differences, relating to retention or student attitude, existed in classes taught in the two methods. The study found no significant cognitive gains at Bloom's first three levels in classes taught in the traditional format. In the STS classes no significant gains were uncovered at Bloom's first level of cognition. Statistically significant gains were found in the STS classes at Bloom's second and third levels of cognition. In the classes taught in the traditional format no difference was identified in grade attainment between males and females. In the STS-based classes a small correlational difference between males and females was found with males receiving lower grades than expected. No difference in grade attainment was found between older and younger students taught in the traditional format. In the STS-based classes a small statistically significant difference in grade attainment was uncovered between older and younger students with older students receiving more A's and fewer C's than expected. This study found no difference in the grades of older, female students as compared to all other students in the traditionally taught classes. A weak statistically significant difference was discovered between grade attainment of older, female students and all other students in the STS classes with older, female

  9. Taking a Scientific Approach to Science Teaching

    NASA Astrophysics Data System (ADS)

    Pollock, S.

    2011-09-01

    It is now well-documented that traditionally taught, large-scale introductory science courses often fail to teach our students the basics. In fact, these same courses have been found to teach students things we don't intend. Building on a tradition of research, the physics and astronomy education research communities have been investigating the effects of educational reforms at the undergraduate level for decades. Both within these scientific communities and in the fields of education, cognitive science, psychology, and other social sciences, we have learned a great deal about student learning and environments that support learning for an increasingly diverse population of students. This presentation will discuss a variety of effective classroom practices, (with an emphasis on peer instruction, "clickers," and small group activities), the surrounding educational structures, and examine assessments which indicate when and why these do (and sometimes do not) work. After a broad survey of education research, we will look at some of the exciting theoretical and experimental developments within this field that are being conducted at the University of Colorado. Throughout, we will consider research and practices that can be of value in both physics and astronomy classes, as well as applications to teaching in a variety of environments.

  10. Using Infiniscope Exploratory Activities in an Online Astronomy Lab Course for Non-Science Majors

    NASA Astrophysics Data System (ADS)

    Knierman, Karen; Anbar, Ariel; Tamer, A. Joseph; Hunsley, Diana; Young, Patrick A.; Center for Education Through eXploration

    2018-01-01

    With the growth of online astronomy courses, it has become necessary to design different strategies for students to engage meaningfully with astronomy content. In contrast to some of the previously designed “cookbook”-style lab exercises, the strategy of these Infiniscope activities is to provide an experience where the students explore and discover the content for themselves. The Infiniscope project was created by ASU’s School of Earth and Space Exploration and NASA’s Science Mission Directorate as part of the NASA Exploration Connection project. As part of this project, online activities on topics such as asteroids and Kuiper Belt objects, eclipses, and Kepler’s Laws were designed and created for middle school (grades 6-8) and informal education settings. This poster discusses adapting these activities to the undergraduate non-science major setting. In fall 2017, the Infiniscope activities, such as Small Worlds and Kepler’s Laws, will be incorporated into an Arizona State University online astronomy course, AST 113, which is the laboratory component for the Introduction to Solar System Astronomy course sequence. This course typically enrolls about 800-900 students per semester with a combination of students who are online only as well as those who also take in person classes. In this type of class, we cannot have any in-person required sessions and all content must be delivered online asynchronously. The use of the Infiniscope exploratory exercises will provide students with the ability to use NASA data in a hands-on manner to discover the solar system for themselves.

  11. Should Science Teaching Involve the History of Science? An Assessment of Kuhn's View

    ERIC Educational Resources Information Center

    Kindi, Vasso

    2005-01-01

    Thomas Kuhn draws the distinction between textbook history of science and history of science proper. The question addressed in the paper is whether Kuhn recommends the inclusion of distortive textbook history in science education. It is argued, pace Fuller, that Kuhn does not make normative suggestions. He does not urge the teaching of bad history…

  12. "We're All Gonna' Die": Using Human Interest in Disasters to Promote Student Interest and Research in Introductory Science Classes for Non-Science Majors.

    NASA Astrophysics Data System (ADS)

    Prueher, L.

    2008-12-01

    Humans are fascinated by disasters. Volcanic eruptions, earthquakes, and other natural disasters capture the public interest and provide educators a venue in which to present scientific information and dispel common misconceptions. Presenting scientific information via the vehicle of a disaster can attract even the most science-phobic student, capturing their interest in a way that more traditional methods of presentation cannot or do not. People are inundated with scientific data through the popular media yet little is done to provide non-scientists with the information needed to distinguish between fact and fiction. Docudramas such as, "Supervolcano", blur the boundary between reality and fiction. Human interest in disasters can be used as an educational tool to foster scientific literacy among non-science majors. "We're All Gonna' Die", is an inquiry-based research project used in introductory geology classes at Arapahoe Community College and the University of Northern Colorado. Most students taking this class have no college science background. The project introduces students to geological and environmental hazards. Students choose a city of interest, analyze the potential geologic and environmental hazards in the area, and determine what can be done to minimize potential damage and fatalities. Students are more interested in a topic and delve deeper into the subject matter when researching a project of their own choosing. Students have incorporated demonstrations, skits, student-made videos, games, current geologic events, and research results into their projects. Perhaps as important, the students have fun, become excited about their project and topic, and disseminate the information to family and friends.

  13. On teaching computer ethics within a computer science department.

    PubMed

    Quinn, Michael J

    2006-04-01

    The author has surveyed a quarter of the accredited undergraduate computer science programs in the United States. More than half of these programs offer a 'social and ethical implications of computing' course taught by a computer science faculty member, and there appears to be a trend toward teaching ethics classes within computer science departments. Although the decision to create an 'in house' computer ethics course may sometimes be a pragmatic response to pressure from the accreditation agency, this paper argues that teaching ethics within a computer science department can provide students and faculty members with numerous benefits. The paper lists topics that can be covered in a computer ethics course and offers some practical suggestions for making the course successful.

  14. The Role of Research on Science Teaching and Learning

    ERIC Educational Resources Information Center

    National Science Teachers Association (NJ1), 2010

    2010-01-01

    Research on science teaching and learning plays an important role in improving science literacy, a goal called for in the National Science Education Standards (NRC 1996) and supported by the National Science Teachers Association (NSTA 2003). NSTA promotes a research agenda that is focused on the goal of enhancing student learning through effective…

  15. The Teaching Challenge: Science, Engineering and the Knowledge Economy.

    ERIC Educational Resources Information Center

    Dowling, Patrick

    2001-01-01

    Presents the presidential address delivered to the Association for Science Education (ASE) at its annual meeting held at the University of Surrey, January 2001. Consists of three sections: (1) science and engineering and the knowledge economy; (2) teaching challenge and the role of science teachers; and (3) partnerships to support science,…

  16. Physics Teachers' Challenges in Using History and Philosophy of Science in Teaching

    ERIC Educational Resources Information Center

    Henke, Andreas; Höttecke, Dietmar

    2015-01-01

    The inclusion of the history and philosophy of science (HPS) in science teaching is widely accepted, but the actual state of implementation in schools is still poor. This article investigates possible reasons for this discrepancy. The demands science teachers associate with HPS-based teaching play an important role, since these determine teachers'…

  17. Teacher Training and Pre-Service Primary Teachers' Self-Efficacy for Science Teaching

    ERIC Educational Resources Information Center

    Velthuis, Chantal; Fisser, Petra; Pieters, Jules

    2014-01-01

    This study focuses on the improvement of pre-service teachers' self-efficacy for teaching science by including science courses within the teacher training program. Knowing how efficacy beliefs change over time and what factors influence the development by pre-service primary teachers of positive science teaching efficacy beliefs may be useful for…

  18. Science Educators Teaching Engineering Design: An Examination across Science Professional Development Sites

    ERIC Educational Resources Information Center

    Grubbs, Michael E.; Love, Tyler S.; Long, David E.; Kittrell, Danielle

    2016-01-01

    Although the currently employed STEM (science, technology, engineering, and mathematics) acronym is of recent origin, dating to the early 2000s (Chute, 2009), the United States has long emphasized the importance of teaching STEM in its public schools. Early efforts, such as "Science, the Endless Frontier" (Bush, 1945) and the…

  19. Changing Science Teaching Practice in Early Career Secondary Teaching Graduates

    ERIC Educational Resources Information Center

    Bartholomew, Rex; Moeed, Azra; Anderson, Dayle

    2011-01-01

    Initial teacher education (ITE) is being challenged internationally to prepare teachers with the understandings needed to teach an increasingly diverse student population. Science teachers need to prepare students with both conceptual and procedural understanding. The challenge is to prioritise a balance in ITE courses between theoretical…

  20. Phys FilmMakers: teaching science students how to make YouTube-style videos

    NASA Astrophysics Data System (ADS)

    Coates, Rebecca L.; Kuhai, Alvina; Turlej, Laurence Z. J.; Rivlin, Tom; McKemmish, Laura K.

    2018-01-01

    Phys FilmMakers (PFM) is a new type of course in which a science expert and science communicator partner teach physics students how to make YouTube-style videos on cutting-edge scientific research within the university department. Here, we describe this new course, outline its key components and provide recommendations for others considering implementing a similar FilmMakers-style course using feedback from course tutors and students. We discuss successful and less successful teaching techniques as well as use our experience to identify areas that science students in particular often have difficulties: finding an interesting ‘hook’ for the video, imagining creative B-roll and making a succinct video by removing extraneous (though usually correct and often interesting) material. The course has two major components: workshop sessions in which students learn the key elements of film-making and independent video production where PFM students partner with senior PhD or post-doc researchers to produce a video on their research. This partnership with the department means that the videos produced serve not only as interesting ‘edutainment’ to encourage teenagers and young adults into Science, Technology, Engineering and Maths subjects, but also provide valuable outreach for the academic department.

  1. From Students to Teachers: Investigating the Science Teaching Efficacy Beliefs and Experiences of Graduate Primary Teachers

    NASA Astrophysics Data System (ADS)

    Deehan, James; Danaia, Lena; McKinnon, David H.

    2018-03-01

    The science achievement of primary students, both in Australia and abroad, has been the subject of intensive research in recent decades. Consequently, much research has been conducted to investigate primary science education. Within this literature, there is a striking juxtaposition between tertiary science teaching preparation programs and the experiences and outcomes of both teachers and students alike. Whilst many tertiary science teaching programs covary with positive outcomes for preservice teachers, reports of science at the primary school level continue to be problematic. This paper begins to explore this apparent contradiction by investigating the science teaching efficacy beliefs and experiences of a cohort of graduate primary teachers who had recently transitioned from preservice to inservice status. An opportunity sample of 82 primary teachers responded to the science teaching efficacy belief instrument A (STEBI-A), and 10 graduate teachers provided semi-structured interview data. The results showed that participants' prior science teaching efficacy belief growth, which occurred during their tertiary science education, had remained durable after they had completed their teaching degrees and began their careers. Qualitative data showed that their undergraduate science education had had a positive influence on their science teaching experiences. The participants' school science culture, however, had mixed influences on their science teaching. The findings presented within this paper have implications for the direction of research in primary science education, the design and assessment of preservice primary science curriculum subjects and the role of school contexts in the development of primary science teachers.

  2. Teaching-Focused Science Academics Supervising Research Students in Science Education: What's the Problem?

    ERIC Educational Resources Information Center

    Rowland, Susan

    2012-01-01

    Academics who specialise in improving the teaching of "hard" sciences like chemistry, biology, maths and physics are increasing in number and influence at Australian universities. Those in academia who have channelled their energies into teaching are delighted with this development. It means that many committed tertiary teachers can now look…

  3. The SQL Server Database for Non Computer Professional Teaching Reform

    ERIC Educational Resources Information Center

    Liu, Xiangwei

    2012-01-01

    A summary of the teaching methods of the non-computer professional SQL Server database, analyzes the current situation of the teaching course. According to non computer professional curriculum teaching characteristic, put forward some teaching reform methods, and put it into practice, improve the students' analysis ability, practice ability and…

  4. Prospective faculty developing understanding of teaching and learning processes in science

    NASA Astrophysics Data System (ADS)

    Pareja, Jose I.

    Historically, teaching has been considered a burden by many academics at institutions of higher education, particularly research scientists. Furthermore, university faculty and prospective faculty often have limited exposure to issues associated with effective teaching and learning. As a result, a series of ineffective teaching and learning strategies are pervasive in university classrooms. This exploratory case study focuses on four biology graduate teaching fellows (BGF) who participated in a National Science Foundation (NSF) GK-12 Program. Such programs were introduced by NSF to enhance the preparation of prospective faculty for their future professional responsibilities. In this particular program, BGF were paired with high school biology teachers (pedagogical mentors) for at least one year. During this yearlong partnership, BGF were involved in a series of activities related to teaching and learning ranging from classroom teaching, tutoring, lesson planning, grading, to participating in professional development conferences and reflecting upon their practices. The purpose of this study was to examine the changes in BGF understanding of teaching and learning processes in science as a function of their pedagogical content knowledge (PCK). In addition, the potential transfer of this knowledge between high school and higher education contexts was investigated. The findings of this study suggest that understanding of teaching and learning processes in science by the BGF changed. Specific aspects of the BGF involvement in the program (such as classroom observations, practice teaching, communicating with mentors, and reflecting upon one's practice) contributed to PCK development. In fact, there is evidence to suggest that constant reflection is critical in the process of change. Concurrently, BGFs enhanced understanding of science teaching and learning processes may be transferable from the high school context to the university context. Future research studies should

  5. Children's Questions and Science Teaching: An Alternative Approach. [and] Floating and Sinking: Some Teaching Suggestions. Learning in Science Project (Primary). Working Paper No. 117 [February 1984 and November 1983 Versions].

    ERIC Educational Resources Information Center

    Biddulph, Fred; Osborne, Roger

    Two booklets were developed by the Learning in Science Project (Primary)--LISP(P)--to help teachers adopt an approach to primary science teaching which would enhance children's understanding of floating and sinking. Both booklets were designed to enable teachers to reconceptualize their teaching task from activity-driven, didactic teaching to…

  6. Increasing Persistence in Undergraduate Science Majors: A Model for Institutional Support of Underrepresented Students

    PubMed Central

    Toven-Lindsey, Brit; Levis-Fitzgerald, Marc; Barber, Paul H.; Hasson, Tama

    2015-01-01

    The 6-yr degree-completion rate of undergraduate science, technology, engineering, and mathematics (STEM) majors at U.S. colleges and universities is less than 40%. Persistence among women and underrepresented minorities (URMs), including African-American, Latino/a, Native American, and Pacific Islander students, is even more troubling, as these students leave STEM majors at significantly higher rates than their non-URM peers. This study utilizes a matched comparison group design to examine the academic achievement and persistence of students enrolled in the Program for Excellence in Education and Research in the Sciences (PEERS), an academic support program at the University of California, Los Angeles, for first- and second-year science majors from underrepresented backgrounds. Results indicate that PEERS students, on average, earned higher grades in most “gatekeeper” chemistry and math courses, had a higher cumulative grade point average, completed more science courses, and persisted in a science major at significantly higher rates than the comparison group. With its holistic approach focused on academics, counseling, creating a supportive community, and exposure to research, the PEERS program serves as an excellent model for universities interested in and committed to improving persistence of underrepresented science majors and closing the achievement gap. PMID:25828403

  7. Fostering nature of science teaching in elementary pre-service teachers through developing reflection on teaching and learning

    NASA Astrophysics Data System (ADS)

    Pongsanon, Khemmawadee

    Although teacher educators have successfully helped K-12 teachers' develop adequate views of NOS, their views have not been transferred to their students. It is evident that K-12 students' understanding of NOS still does not align with the recommendation of the reforms document, indicating that holding an adequate view of NOS is insufficient for teaching NOS effectively. Instead, to teach NOS, teachers must develop the knowledge for translating their understanding of NOS into the forms accessible to students. The current study investigated the influence of four contexts of reflective practice on prospective elementary teachers' learning of how and intention to teach NOS. The participants were 18 pre-service teachers enrolled in a science methods course that was tied to a field experience course. To understand the development of the participants' intentions, knowledge of instructional strategies, and knowledge of assessment for teaching NOS, multiple data were collected throughout the science methods course and the field experience. Data sources included different versions of participants' lesson plans, video recordings of their teaching and teaching debriefings, online weekly teaching reflections, final semester reflection and other artifacts from the methods course. Content analysis was conducted with all data. The data revealed that the participants' knowledge of how and intentions to teach NOS were developed throughout the science methods course. Toward the conclusion of the semester, the participants showed intention to include NOS in their science instruction. With regard to strategies, participants planned to apply explicit reflective NOS instruction in the context of inquiry-based activities and stories from children's literature. They also planned to use age-appropriate language to refer to the targeted NOS aspects. In terms of assessment, by the conclusion of the semester the participants tended to use more formal assessment strategies. They reported

  8. On Gene Concepts and Teaching Genetics: Episodes from Classical Genetics

    ERIC Educational Resources Information Center

    Burian, Richard M.

    2013-01-01

    This paper addresses the teaching of advanced high school courses or undergraduate courses for non-biology majors about genetics or history of genetics. It will probably be difficult to take the approach described here in a high school science course, although the general approach could help improve such courses. It would be ideal for a college…

  9. Teacher Students' Dilemmas When Teaching Science through Inquiry

    ERIC Educational Resources Information Center

    Krämer, Philipp; Nessler, Stefan H.; Schlüter, Kirsten

    2015-01-01

    Background: Inquiry-based science education (IBSE) is suitable to teach scientific contents as well as to foster scientific skills. Similar conclusions are drawn by studies with respect to scientific literacy, motivational aspects, vocabulary knowledge, conceptual understandings, critical thinking, and attitudes toward science. Nevertheless, IBSE…

  10. Is Teaching Neoclassical Economics as "the" Science of Economics Moral?

    ERIC Educational Resources Information Center

    Parvin, Manoucher

    1992-01-01

    Discusses the morality of teaching neoclassical theory as the only science of economics. Argues that the teaching of neoclassical theory violates moral principles unless each and every attribute of neoclassical theory is proven superior to corresponding attributes of competing theories. Criticizes neoclassical economics for teaching what rather…

  11. Teaching Creativity through Inquiry Science

    ERIC Educational Resources Information Center

    Thompson, Taylor

    2017-01-01

    The experience that students gain through creative thinking contributes to their readiness for the 21st century. For this and other reasons, educators have always considered creative thinking as a desirable part of any curriculum. The focus of this article is on teaching creative thinking in K-12 science as a way to serve all students and,…

  12. Teaching Science: A Picture Perfect Process.

    ERIC Educational Resources Information Center

    Leyden, Michael B.

    1994-01-01

    Explains how teachers can use graphs and graphing concepts when teaching art, language arts, history, social studies, and science. Students can graph the lifespans of the Ninja Turtles' Renaissance namesakes (Donatello, Michelangelo, Raphael, and Leonardo da Vinci) or world population growth. (MDM)

  13. Teaching Critical Thinking through a course on Science and Religion

    NASA Astrophysics Data System (ADS)

    Shipman, H. L.; Jordan, J. J.

    2004-12-01

    The relationship between science and religion is, according to the public debate, rather stormy. It doesn't have to be this way. Since 1998, an astronomer (Shipman) and a philosopher (Jordan) have team-taught a course with a more constructive approach. This course has a recognized role in the University's General Education program and in the philosophy major. As overall course goals, we hope that our students will be able to: - exhibit critical thinking skills in being able to tell the difference between good arguments and bad arguments in this area - recognize that the relationship between science and religion is not necessarily an antagonistic one. We accomplish these goals by focusing the course on four major issues, namely: - Does Big Bang Cosmology leave room for a Creator? - Can a rational person believe in miracle reports? - In the light of modern science, what does it mean to be human? - Can a theist, someone who believes in God, rationally accept the scientific theory of biological evolution? We have evidence in the course to evaluate student progress towards our goals. Student responses to a pre- and post-testing methodology, where they responded to the same assignment at the beginning and at the end of the course, were classified as seeing the relationship between science and religion as confrontational, distinct, convergent, or transitional between distinct and convergent. Preliminary analysis of the student responses shows a significant shift away from a confrontational position and towards a more convergent position. The development of this course was supported by the John Templeton Foundation's Science and Religion course program. H.L.S.'s scholarly work integrating science research and science education research is supported by the National Science Foundation's Distinguished Teaching Scholars Program. DUE-0306557),

  14. Effects of Teaching Gardening on Science Students' Attitudes toward Entrepreneurial Skills Acquisition in Jos South, Plateau State, Nigeria

    ERIC Educational Resources Information Center

    Charity, Dimlong; Ozoji, Bernadette Ebele; Osasebor, Florence Osaze; Ibn Umar, Suleiman

    2017-01-01

    This study investigated the effects of teaching gardening on science students' attitudes toward entrepreneurial skills acquisition in Jos South, Plateau State, Nigeria. The study employed the non-randomized pre-test post-test non-equivalent control group design. A sample of 75 senior secondary school students from two intact classes, randomly…

  15. Determination of Factors Affecting Preschool Teacher Candidates' Attitudes towards Science Teaching

    ERIC Educational Resources Information Center

    Timur, Betul

    2012-01-01

    The purpose of this study was to determine preschool teacher candidates' attitudes towards science teaching and to examine the reasons behind their attitudes in depth. In this study, mixed methods were used including quantitative and qualitative data. Quantitative data gained by attitudes towards science teaching scale, qualitative data gained by…

  16. Using the Socioscientific Context of Climate Change to Teach Chemical Content and the Nature of Science

    ERIC Educational Resources Information Center

    Flener-Lovitt, Charity

    2014-01-01

    A thematic course called "Climate Change: Chemistry and Controversy" was developed for upper-level non-STEM students. This course used the socioscientific context of climate change to teach chemical principles and the nature of science. Students used principles of agnotology (direct study of misinformation) to debunk climate change…

  17. Photosynthesis in Plants with Non-Green Leaves

    ERIC Educational Resources Information Center

    Vartak, Rehka

    2006-01-01

    Enquiry based learning is an important tool in science teaching. Students of Class XI (16-17 years old) were asked to hypothesise on the role of different pigments found in plants with non-green leaves. The majority hypothesised that these plants were devoid of chlorophylls and some other pigments performed the function of photosynthesis. Their…

  18. Primary teachers conducting inquiry projects: effects on attitudes towards teaching science and conducting inquiry

    NASA Astrophysics Data System (ADS)

    van Aalderen-Smeets, Sandra I.; Walma van der Molen, Juliette H.; van Hest, Erna G. W. C. M.; Poortman, Cindy

    2017-01-01

    This study used an experimental, pretest-posttest control group design to investigate whether participation in a large-scale inquiry project would improve primary teachers' attitudes towards teaching science and towards conducting inquiry. The inquiry project positively affected several elements of teachers' attitudes. Teachers felt less anxious about teaching science and felt less dependent on contextual factors compared to the control group. With regard to attitude towards conducting inquiry, teachers felt less anxious and more able to conduct an inquiry project. There were no effects on other attitude components, such as self-efficacy beliefs or relevance beliefs, or on self-reported science teaching behaviour. These results indicate that practitioner research may have a partially positive effect on teachers' attitudes, but that it may not be sufficient to fully change primary teachers' attitudes and their actual science teaching behaviour. In comparison, a previous study showed that attitude-focused professional development in science education has a more profound impact on primary teachers' attitudes and science teaching behaviour. In our view, future interventions aiming to stimulate science teaching should combine both approaches, an explicit focus on attitude change together with familiarisation with inquiry, in order to improve primary teachers' attitudes and classroom practices.

  19. Exploration of Factors Related to the Development of Science, Technology, Engineering, and Mathematics Graduate Teaching Assistants' Teaching Orientations

    ERIC Educational Resources Information Center

    Gilmore, Joanna; Maher, Michelle A.; Feldon, David F.; Timmerman, Briana

    2014-01-01

    Research indicates that modifying teachers' beliefs about learning and teaching (i.e. teaching orientation) may be a prerequisite to changing their teaching practices. This mixed methods study quantitized data from interviews with 65 graduate teaching assistants (GTAs) from science, technology, engineering, and mathematics (STEM) fields to assess…

  20. Teacher Candidates in an Online Post-Baccalaureate Science Methods Course: Implications for Teaching Science Inquiry with Technology

    ERIC Educational Resources Information Center

    Colon, Erica L.

    2010-01-01

    Online learning is becoming more prevalent in today's education and is changing the way students learn and instructors teach. This study proposed using an informative case study design within a multilevel conceptual framework as teacher candidates were learning to teach and use science inquiry while in an online post-baccalaureate science methods…

  1. Graduate teaching assistants' perceptions of teaching competencies required for work in undergraduate science labs

    NASA Astrophysics Data System (ADS)

    Deacon, Christopher; Hajek, Allyson; Schulz, Henry

    2017-11-01

    Many post-secondary institutions provide training and resources to help GTAs fulfil their teaching roles. However, few programmes focus specifically on the teaching competencies required by GTAs who work with undergraduate students in laboratory settings where learning tends to be more active and inquiry based than in classroom settings. From a review of 8 GTA manuals, we identified 20 competencies and then surveyed faculty and lab coordinators (FIS) and GTAs from a Faculty of Science at a comprehensive Canadian university to identify which of those competencies are required of GTAs who work in undergraduate science labs. GTAs and FIS did not significantly differ in the competencies they view as required for GTAs to work effectively in undergraduate labs. But, when comparing the responses of GTAs and FIS to TA manuals, 'Clearly and effectively communicates ideas and information with students' was the only competency for which there was agreement on the level of requirement. We also examined GTAs' self-efficacy for each of the identified competencies and found no overall relationship between self-efficacy and demographic characteristics, including experience and training. Our results can be used to inform the design of training programmes specifically for GTAs who work in undergraduate science labs, for example, programmes should provide strategies for GTAs to obtain feedback which they can use to enhance their teaching skills. The goal of this study is to improve undergraduate lab instruction in faculties of science and to enhance the teaching experience of GTAs by better preparing them for their role.

  2. Teaching Culturally Relevant Science.

    ERIC Educational Resources Information Center

    Marinez, Diana; Ortiz de Montellano, Bernard

    For teachers concerned about the underrepresentation of Hispanics and Native Americans in science fields, this paper provides resource materials and instructional approaches. First, the role of ethnocentrism in determining what is included in science courses is discussed; the non-Western impact of science has been systematically ignored, it is…

  3. Teaching earth science

    USGS Publications Warehouse

    Alpha, Tau Rho; Diggles, Michael F.

    1998-01-01

    This CD-ROM contains 17 teaching tools: 16 interactive HyperCard 'stacks' and a printable model. They are separated into the following categories: Geologic Processes, Earthquakes and Faulting, and Map Projections and Globes. A 'navigation' stack, Earth Science, is provided as a 'launching' place from which to access all of the other stacks. You can also open the HyperCard Stacks folder and launch any of the 16 stacks yourself. In addition, a 17th tool, Earth and Tectonic Globes, is provided as a printable document. Each of the tools can be copied onto a 1.4-MB floppy disk and distributed freely.

  4. The Art of Teaching Science in Secondary Schools: A Meta Analysis

    ERIC Educational Resources Information Center

    Hassan, Sharifah Sariah Syed; Ibrahim, Ahmad Abdullahi

    2018-01-01

    This study attempted to highlight the trend of research in science related subjects specifically in schools. Articles and journals were retrieved from Google scholar under peer reviewed with the aim to highlight the trend of research methods, findings and teaching strategies. The themes were based on pedagogical approaches of teaching science,…

  5. An Investigation of Science Teaching Practices in Indonesian Rural Secondary Schools

    ERIC Educational Resources Information Center

    Wahyudi; Treagust, David F.

    2004-01-01

    This study reports on teaching practices in science classrooms of Indonesian lower secondary schools in rural areas. Using six schools from three districts in the province of Kalimantan Selatan as the sample, this study found that most teaching practices in science classrooms in rural schools were teacher-centred with students copying notes.…

  6. Models in Science Education: Applications of Models in Learning and Teaching Science

    ERIC Educational Resources Information Center

    Ornek, Funda

    2008-01-01

    In this paper, I discuss different types of models in science education and applications of them in learning and teaching science, in particular physics. Based on the literature, I categorize models as conceptual and mental models according to their characteristics. In addition to these models, there is another model called "physics model" by the…

  7. A comparison of observed teaching practices with teacher perceptions of their teaching during and following major funding

    NASA Astrophysics Data System (ADS)

    Kimble, Larry Lee

    The purposes of this study were: (1) to determine how the teaching practices of eight exemplary Iowa teachers changed over time (1994--1999); (2) to investigate discrepancies between the perceptions of teaching compared with actual performance of these behaviors exhibited in videotapes of their teaching; and (3) to determine how STS/Constructivist teaching behaviors changed after major NSF funding. Data were collected at multiple times over a five year period. Quantitative data included use of the ESTEEM for evaluating three consecutive days of "best" teaching on the part of the eight teachers. The TPI and CLES were used for measuring perceptions of the teachers. Interviews concerning classrooms and teaching practices were conducted. Assessment and teaching methods were also reviewed. Major findings include: (1) Teaching practices indicate that all eight teachers achieved expert status in all four areas measured by the ESTEEM. These include (1) facilitating the learning process from a constructivist perspective; (2) content-specific pedagogy related to student understanding; (3) adjustments in strategies based on interactions with the students; and (4) teacher knowledge of subject matter. Constructivist practices improved significantly at each data sampling over the studied period (significant at the .05 level). (2) Teacher perceptions of their constructivist teaching practices as measured by the TPI and CLES were very high. This was especially true for the CLES where five areas of constructivist teaching were evaluated, namely: (1) personal relevance; (2) scientific uncertainty; (3) critical voice; (4) shared control, and (5) student negotiations. The perceptions continued to improve over the studied period (significant at the .05 level). (3) Similarities between teacher observed practices and their perceptions of their teaching were noted. In many cases, the actual practices were observed to be better. (4) The teachers improved regarding wait-time between teacher

  8. Engaging pre-service teachers to teach science contextually with scientific approach instructional video

    NASA Astrophysics Data System (ADS)

    Susantini, E.; Kurniasari, I.; Fauziah, A. N. M.; Prastowo, T.; Kholiq, A.; Rosdiana, L.

    2018-01-01

    Contextual teaching and learning (CTL) present new concepts in real experiences and situations, where students can find out the meaningful relationship between abstract ideas and practical applications. Implementation of CTL using scientific approach fosters teachers to find constructive ways of delivering and organizing science contents in science classroom settings. An instructional video for modelling by using a scientific approach in CTL was then developed. Questionnaires with open-ended questions were used to, asking whether modelling through instructional video could help them to teach science contextually with a scientific approach or not. Data for pre-service teachers’ views were analyzed descriptively. The aims of this research are to engage pre-service teachers in learning how to teach CTL and to show how their responses to learning and how to teach CTL using the video. The study showed that ten pre-service teachers in science department were involved, all observed through videos that demonstrated a combined material of CTL and scientific approach and completed worksheets to analyze the video contents. The results show that pre-service teachers could learn to teach contextual teaching and make use of scientific approach in science classroom settings with the help of model in the video.

  9. Teaching Evolution to Non-English Proficient Students by Using Lego Robotics

    ERIC Educational Resources Information Center

    Whittier, L. Elena; Robinson, Michael

    2007-01-01

    This article describes a teaching unit that used Lego Robotics to address state science standards for teaching basic principles of evolution in two middle school life science classes. All but two of 29 students in these classes were native Spanish speakers from Mexico. Both classes were taught using Sheltered Instruction Observation Protocol…

  10. The Effect of Early Classroom Teaching Experience Upon the Attitudes and Performance of Science Teacher Candidates.

    ERIC Educational Resources Information Center

    Conradson, Diane R.

    Reported is a study on effects of early classroom teaching experience upon the attitudes and performance of teacher candidates from a student group primarily composed of science majors or minors. The subjects were paired mainly on their choice of a credential or noncredential program. One of each pair was randomly assigned to the experimental…

  11. The Teaching Practices Inventory: A New Tool for Characterizing College and University Teaching in Mathematics and Science

    PubMed Central

    Gilbert, Sarah

    2014-01-01

    We have created an inventory to characterize the teaching practices used in science and mathematics courses. This inventory can aid instructors and departments in reflecting on their teaching. It has been tested with several hundred university instructors and courses from mathematics and four science disciplines. Most instructors complete the inventory in 10 min or less, and the results allow meaningful comparisons of the teaching used for the different courses and instructors within a department and across different departments. We also show how the inventory results can be used to gauge the extent of use of research-based teaching practices, and we illustrate this with the inventory results for five departments. These results show the high degree of discrimination provided by the inventory, as well as its effectiveness in tracking the increase in the use of research-based teaching practices. PMID:25185237

  12. STENCIL: Science Teaching European Network for Creativity and Innovation in Learning

    NASA Astrophysics Data System (ADS)

    Cattadori, M.; Magrefi, F.

    2013-12-01

    STENCIL is an european educational project funded with support of the European Commission within the framework of LLP7 (Lifelong Learning Programme) for a period of 3 years (2011 - 2013). STENCIL includes 21 members from 9 European countries (Bulgaria, Germany, Greece, France, Italy, Malta, Portugal, Slovenia, Turkey.) working together to contribute to the general objective of improving science teaching, by promoting innovative methodologies and creative solutions. Among the innovative methods adept a particolar interest is a joint partnership between a wide spectrum of type of institutions such as schools, school authorities, research centres, universities, science museums, and other organizations, representing differing perspectives on science education. STENCIL offers to practitioners in science education from all over Europe, a platform; the web portal - www.stencil-science.eu - that provides high visibility to schools and institutions involved in Comenius and other similar European funded projects in science education. STENCIL takes advantage of the positive results achieved by the former European projects STELLA - Science Teaching in a Lifelong Learning Approach (2007 - 2009) and GRID - Growing interest in the development of teaching science (2004-2006). The specific objectives of the project are : 1) to identify and promote innovative practices in science teaching through the publication of Annual Reports on Science Education; 2) to bring together science education practitioners to share different experiences and learn from each other through the organisation of periodical study visits and workshops; 3) to disseminate materials and outcomes coming from previous EU funded projects and from isolated science education initiatives through the STENCIL web portal, as well as through international conferences and national events. This contribution aims at explaining the main features of the project together with the achieved results during the project's 3 year

  13. New Pathways for Teaching Chemistry: Reflective Judgment in Science.

    ERIC Educational Resources Information Center

    Finster, David C.

    1992-01-01

    The reflective judgment model offers a rich context for analysis of science and science teaching. It provides deeper understanding of the scientific process and its critical thinking and reveals fundamental connections between science and the other liberal arts. Classroom techniques from a college chemistry course illustrate the utility of the…

  14. Controversy as a Blind Spot in Teaching Nature of Science. Why the Range of Different Positions Concerning Nature of Science Should Be an Issue in the Science Classroom

    NASA Astrophysics Data System (ADS)

    Kötter, Mario; Hammann, Marcus

    2017-07-01

    In this article, the argument is put forth that controversies about the scope and limits of science should be considered in Nature of Science (NOS) teaching. Reference disciplines for teaching NOS are disciplines, which reflect upon science, like philosophy of science, history of science, and sociology of science. The culture of these disciplines is characterized by controversy rather than unified textbook knowledge. There is common agreement among educators of the arts and humanities that controversies in the reference disciplines should be represented in education. To teach NOS means to adopt a reflexive perspective on science. Therefore, we suggest that controversies within and between the reference disciplines are relevant for NOS teaching and not only the NOS but about NOS should be taught, too. We address the objections that teaching about NOS is irrelevant for real life and too demanding for students. First, we argue that science-reflexive meta-discourses are relevant for students as future citizens because the discourses occur publicly in the context of sociopolitical disputes. Second, we argue that it is in fact necessary to reduce the complexity of the above-mentioned discourses and that this is indeed possible, as it has been done with other reflexive elements in science education. In analogy to the German construct Bewertungskompetenz (which means the competency to make informed ethical decisions in scientific contexts), we suggest epistemic competency as a goal for NOS teaching. In order to do so, science-reflexive controversies must be simplified and attitudes toward science must be considered. Discourse on the scientific status of potential pseudoscience may serve as an authentic and relevant context for teaching the controversial nature of reflexion on science.

  15. FAST, Foundational Approaches in Science Teaching. Instructional Guide. Second Edition.

    ERIC Educational Resources Information Center

    Young, Donald B.; Pottenger, Francis M., III

    The Foundational Approaches in Science Teaching (FAST) project, which began under the sponsorship of the Hawaii Science Curriculum Council, contains a series of interdisciplinary science courses that emphasize the foundational concepts and methods of the physical, biological, and earth sciences. By directly involving students in investigating…

  16. Assessing Gains in Science Teaching Self-Efficacy after Completing an Inquiry-Based Earth Science Course

    ERIC Educational Resources Information Center

    Gray, Kyle

    2017-01-01

    Preservice elementary teachers are often required to take an Earth Science content course as part of their teacher education program but typically enter the course with little knowledge of key Earth Science concepts and are uncertain in their ability to teach science. This study investigated whether completing an inquiry-based Earth Science course…

  17. A meta-analysis of instructional systems applied in science teaching

    NASA Astrophysics Data System (ADS)

    Willett, John B.; Yamashita, June J. M.; Anderson, Ronald D.

    This article is a report of a meta-analysis on the question: What are the effects of different instructional systems used in science teaching? The studies utilized in this meta-analysis were identified by a process that included a systematic screening of all dissertations completed in the field of science education since 1950, an ERIC search of the literature, a systematic screening of selected research journals, and the standard procedure of identifying potentially relevant studies through examination of the bibliographies of the studies reviewed. In all, the 130 studies coded gave rise to 341 effect sizes. The mean effect size produced over all systems was 0.10 with a standard deviation of 0.41, indicating that, on the average, an innovative teaching system in this sample produced one-tenth of a standard deviation better performance than traditional science teaching. Particular kinds of teaching systems, however, produced results that varied from this overall result. Mean effect sizes were also computed by year of publication, form of publication, grade level, and subject matter.

  18. The College Science Learning Cycle: An Instructional Model for Reformed Teaching

    PubMed Central

    Withers, Michelle

    2016-01-01

    Finding the time for developing or locating new class materials is one of the biggest barriers for instructors reforming their teaching approaches. Even instructors who have taken part in training workshops may feel overwhelmed by the task of transforming passive lecture content to engaging learning activities. Learning cycles have been instrumental in helping K–12 science teachers design effective instruction for decades. This paper introduces the College Science Learning Cycle adapted from the popular Biological Sciences Curriculum Study 5E to help science, technology, engineering, and mathematics faculty develop course materials to support active, student-centered teaching approaches in their classrooms. The learning cycle is embedded in backward design, a learning outcomes–oriented instructional design approach, and is accompanied by resources and examples to help faculty transform their teaching in a time-efficient manner. PMID:27909030

  19. Characteristics of High School Students' and Science Teachers' Cognitive Frame about Effective Teaching Method for High School Science Subject

    NASA Astrophysics Data System (ADS)

    Chung, Duk Ho; Park, Kyeong-Jin; Cho, Kyu Seong

    2016-04-01

    We investigated the cognitive frame of high school students and inservice high school science teachers about effective teaching method, and we also explored how they understood about the teaching methods suggested by the 2009 revised Science Curriculum. Data were collected from 275 high school science teachers and 275 high school students. We analyzed data in terms of the words and the cognitive frame using the Semantic Network Analysis. The results were as follows. First, the teachers perceived that an activity oriented class was the effective science class that helped improve students'' problem-solving abilities and their inquiry skills. The students had the cognitive frame that their teacher had to present relevant and enough teaching materials to students, and that they should also receive assistance from teachers in science class to better prepare for college entrance exam. Second, both students and teachers retained the cognitive frame about the efficient science class that was not reflected 2009 revised Science Curriculum exactly. Especially, neither groups connected the elements of ''convergence'' as well as ''integration'' embedded across science subject areas to their cognitive frame nor cognized the fact that many science learning contents were closed related to one another. Therefore, various professional development opportunities should be offered so that teachers succinctly comprehend the essential features and the intents of the 2009 revised Science Curriculum and thereby implement it in their science lessons effectively. Keywords : semantic network analysis, cognitive frame, teaching method, science lesson

  20. Fieldwork, Co-Teaching and Co-Generative Dialogue in Lower Secondary School Environmental Science

    ERIC Educational Resources Information Center

    Rahmawati, Yuli; Koul, Rekha

    2016-01-01

    This article reports one of the case studies in a 3-year longitudinal study in environmental science education. This case explores the process of teaching about ecosystems through co-teaching and co-generative dialogue in a Year-9 science classroom in Western Australia. Combining with co-teaching and co-generative dialogue aimed at transforming…