Traditional and Constructivist Teaching Techniques: Comparing Two Groups of Undergraduate Nonscience Majors in a Biology Lab

ERIC Educational Resources Information Center

Travis, Holly; Lord, Thomas

2004-01-01

Constructivist teaching techniques work well in various instructional settings, but many teachers remain skeptical because there is a lack of quantitative data supporting this model. This study compared an undergraduate nonmajors biology lab section taught in a traditional teacher-centered style to a similar section taught as a constructivist…

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.

Using Community Resources to Teach about Science and Society.

ERIC Educational Resources Information Center

Ahl, Alwynelle S.; Hiscoe, Helen B.

1979-01-01

Describes a course emphasizing biology, technology, and human values as they pertain to human reproduction for undergraduate nonscience majors. Utilizes community resources as a supplement to library resources for student papers. (Author/MA)

Attitudes toward environmental hazards: Where do toxic wastes fit?

DOE Office of Scientific and Technical Information (OSTI.GOV)

Burger, J.; Cooper, K.; Martin, M.

1997-10-01

The public is continually faced with making decisions about the risks associated with environmental hazards, and, along with managers and government officials, must make informed decisions concerning possible regulation, mitigation, and restoration of degraded sites or other environmental threats. We explored the attitudes regarding several environmental hazards of six groups of people: undergraduate science majors, undergraduate nonscience majors, and graduate students in environmental health, in ecological risk assessment, and in nonscience disciplines, as well as nonstudents over 35 yr of age. We had predicted that there would be significant differences in attitudes between science and nonscience majors and as amore » function of age. Relative concerns could be divided into three discrete classes (in descending order of concern): (1) general ecological problems (cutting tropical forests, polluting groundwater, trash along the coasts, lead in drinking water, and acid rain), (2) radon and nuclear wastes, and finally (3) specific nuclear waste facilities, chromium, fertilizers and pesticides, and electromagnetic waves. For any hazard, attitudes were consistent across groups with regard to ranking the severity of the environmental problem and willingness to expend funds to solve the problems. Attitudes about spending money to develop methods to evaluate risk fell in the middle level of concern. There were no major differences among classes of college-age students, or between them and older nonstudents. 26 refs., 3 figs., 2 tabs.« less

Gender and Subject Choice: An Empirical Study on Undergraduate Students' Majors in Phnom Penh

ERIC Educational Resources Information Center

Dom, Vannak; Yi, Gihong

2018-01-01

The empirical study on 610 undergraduate students between the age of 16 to 25 in Phnom Penh, Cambodia, was set to examine the relationship of gender and subject choice. The findings have revealed that women were overrepresented in non-science subjects and their gender identity has strong connection with subject choice (*** p < 0.001). The study…

Teaching about the Colonization of Space.

ERIC Educational Resources Information Center

Huebner, Jay S.

1979-01-01

Describes an undergraduate course, The Colonization of Space, which introduces nonscience majors at the University of North Florida to current topics in the exploration, industrialization, and colonization of space. References to the audiovisual resources and literature are also included. (HM)

Half Lives for ``Irradiated'' Nonscience Majors

NASA Astrophysics Data System (ADS)

Geise, Kathleen; Hallam, Peter; Rattray, Rebecca; Stencel, Robert; Wolfe, Tristan

2014-03-01

We launched new hands-on radiation labs to supplement lecture material for undergraduate, non-science majors at the University of Denver to reinforce learning objectives during winter quarter 2014 and in order to help educate the public about nuclear energy decisions. Our learning objectives included: 1. differentiate between particle radiation and electro-magnetic radiation, 2. understand that particle radiation comes in alpha, beta and gamma types, 3. atomic and nuclear structure, 4. decay and half-life, 5. understand safe vs. unsafe doses and issues surrounding nuclear waste disposal. We used prelab surveys, prelab assessments, laboratory write-ups and quizzes to measure success with the learning objectives.

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…

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…

Brain literate: making neuroscience accessible to a wider audience of undergraduates.

PubMed

Salomon, Danielle; Martin-Harris, Laurel; Mullen, Brian; Odegaard, Brian; Zvinyatskovskiy, Aleksey; Chandler, Scott H

2015-01-01

The ability to critically evaluate neuroscientific findings is a skill that is rapidly becoming important in non-science professions. As neuroscience research is increasingly being used in law, business, education, and politics, it becomes imperative to educate future leaders in all areas of society about the brain. Undergraduate general education courses are an ideal way to expose students to issues of critical importance, but non-science students may avoid taking a neuroscience course because of the perception that neuroscience is more challenging than other science courses. A recently developed general education cluster course at UCLA aims to make neuroscience more palatable to undergraduates by pairing neuroscientific concepts with philosophy and history, and by building a learning community that supports the development of core academic skills and intellectual growth over the course of a year. This study examined the extent to which the course was successful in delivering neuroscience education to a broader undergraduate community. The results indicate that a majority of students in the course mastered the basics of the discipline regardless of their major. Furthermore, 77% of the non-life science majors (approximately two-thirds of students in the course) indicated that they would not have taken an undergraduate neuroscience course if this one was not offered. The findings also demonstrate that the course helped students develop core academic skills and improved their ability to think critically about current events in neuroscience. Faculty reported that teaching the course was highly rewarding and did not require an inordinate amount of time.

Developing state-of-the-art Cosmology courses for undergraduate non-science students

NASA Astrophysics Data System (ADS)

Lopez-Aleman, Ramon

2007-04-01

All undergraduate students at the University of Puerto Rico, Rio Piedras are required to take a General Studies interdisciplinary science course as a requisite for graduation. We have successfully developed a new course for non-science majors that deal in current topics of interest including Big Bang cosmology, the uses and misuses of anthropic principle as a philosophical guide for scientists, dark energy and accelerated expansion, string theory and quantum gravity, and the current controversy of Intelligent Design vs Evolution by Natural Selection as explanations for the origins of life on Earth, intelligence and free will in sentient beings. The course was designed with help of philosophers, neuroscientists, biologists and physicists to present science as interesting, exciting, and socially useful sets of ``stories'' to people who usually dislike and misunderstand traditional science courses.

Designing Appropriate Scaffolding for Student Science Projects

ERIC Educational Resources Information Center

Johnson, Marie; Smith, Mark

2008-01-01

The authors have developed a successful approach to teaching and inspiring undergraduate science and nonscience majors to complete creditable, semester-long, hands-on science research projects. This approach utilizes a carefully developed scaffolding consisting of in-class exercises and discussions, preparatory homework and lab events, and three…

College Students' Preinstructional Ideas about Stars and Star Formation

ERIC Educational Resources Information Center

Bailey, Janelle M.; Prather, Edward E.; Johnson, Bruce; Slater, Timothy F.

2009-01-01

This study (Note 1) investigated the beliefs about stars that students hold when they enter an undergraduate introductory astronomy course for nonscience majors. Students' preinstructional ideas were investigated through the use of several student-supplied-response (SSR) surveys, which asked students to describe their ideas about topics such as…

Physical Science Laboratory Manual, Experimental Version.

ERIC Educational Resources Information Center

Cooperative General Science Project, Atlanta, GA.

Provided are physical science laboratory experiments which have been developed and used as a part of an experimental one year undergraduate course in general science for non-science majors. The experiments cover a limited number of topics representative of the scientific enterprise. Some of the topics are pressure and buoyancy, heat, motion,…

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).

The Effect of Stereotype Threat on Undergraduates in AN Introductory Astronomy Class

NASA Astrophysics Data System (ADS)

Hufnagel, Beth; Deming, Grace L.; Landato, Janet M.; Hodari, Apriel K.

This quantitative study tests the hypothesis that undergraduates taking an introductory astronomy class for nonscience majors are susceptible to stereotype threat (ST). The Astronomy Diagnostic Test (ADT), a conceptual survey designed for introductory astronomy classes, was administered pre- and postcourse to two pairs (control and threatened) of the same class taught by the same professors, one pair at a public, suburban community college and the other pair at a large, state research university. One class of each pair was threatened postcourse by telling the students that their gender mattered on the ADT. The results showed no ST effect on the women in the university class. The college women underperformed and the men overperformed at a low statistical significance. The authors infer that Steele's requirement for domain identification as a condition is also required to strongly invoke ST for this sample of nonscience students.

Prediction of Osteopathic Medical School Performance on the basis of MCAT score, GPA, sex, undergraduate major, and undergraduate institution.

PubMed

Dixon, Donna

2012-04-01

The relationships of students' preadmission academic variables, sex, undergraduate major, and undergraduate institution to academic performance in medical school have not been thoroughly examined. To determine the ability of students' preadmission academic variables to predict osteopathic medical school performance and whether students' sex, undergraduate major, or undergraduate institution influence osteopathic medical school performance. The study followed students who graduated from New York College of Osteopathic Medicine of New York Institute of Technology in Old Westbury between 2003 and 2006. Student preadmission data were Medical College Admission Test (MCAT) scores, undergraduate grade point averages (GPAs), sex, undergraduate major, and undergraduate institutional selectivity. Medical school performance variables were GPAs, clinical performance (ie, clinical subject examinations and clerkship evaluations), and scores on the Comprehensive Osteopathic Medical Licensing Examination-USA (COMLEX-USA) Level 1 and Level 2-Clinical Evaluation (CE). Data were analyzed with Pearson product moment correlation coefficients and multivariate linear regression analyses. Differences between student groups were compared with the independent-samples, 2-tailed t test. A total of 737 students were included. All preadmission academic variables, except nonscience undergraduate GPA, were statistically significant predictors of performance on COMLEX-USA Level 1, and all preadmission academic variables were statistically significant predictors of performance on COMLEX-USA Level 2-CE. The MCAT score for biological sciences had the highest correlation among all variables with COMLEX-USA Level 1 performance (Pearson r=0.304; P<.001) and Level 2-CE performance (Pearson r=0.272; P<.001). All preadmission variables were moderately correlated with the mean clinical subject examination scores. The mean clerkship evaluation score was moderately correlated with mean clinical examination results (Pearson r=0.267; P<.001) and COMLEX-USA Level 2-CE performance (Pearson r=0.301; P<.001). Clinical subject examination scores were highly correlated with COMLEX-USA Level 2-CE scores (Pearson r=0.817; P<.001). No statistically significant difference in medical school performance was found between students with science and nonscience undergraduate majors, nor was undergraduate institutional selectivity a factor influencing performance. Students' preadmission academic variables were predictive of osteopathic medical school performance, including GPAs, clinical performance, and COMLEX-USA Level 1 and Level 2-CE results. Clinical performance was predictive of COMLEX-USA Level 2-CE performance.

The Development and Implementation of an Inquiry-Based Poster Project on Sustainability in a Large Non-Majors Environmental Science Course

ERIC Educational Resources Information Center

Schmitt-Harsh, Mikaela; Harsh, Joseph A.

2013-01-01

In the past decade, systematic studies have indicated a significant regression in scientific literacy in nonscience students and students across science, technology, engineering, and mathematics disciplines in higher education. Of particular concern, evaluations of introductory lecture-based undergraduate courses have indicated deficiencies in…

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…

Improving Introductory Astronomy Education in American Colleges and Universities: A Review of Recent Progress

ERIC Educational Resources Information Center

Waller, William H.; Slater, Timothy F.

2011-01-01

Over the past 15 years, professional astronomers, their societies, and associated funding agencies have collaborated to improve astronomy teaching and learning at the introductory undergraduate level. Many nonscience majors and preservice teachers enroll in these introductory astronomy courses, thus meriting the focused attention. In this review…

Looking Back to Move Ahead: How Students Learn Geologic Time by Predicting Future Environmental Impacts

ERIC Educational Resources Information Center

Zhu, Chen; Rehrey, George; Treadwell, Brooke; Johnson, Claudia C.

2012-01-01

This Scholarship of Teaching and Learning project discusses the effectiveness of using distance metaphor-building activities along with a case study exam to help undergraduate nonscience majors understand and apply geologic time. Using action research, we describe how a scholarly teacher integrated previously published and often-used teaching…

The Kitchen as a Physics Classroom

ERIC Educational Resources Information Center

Rowat, Amy C.; Sinha, Naveen N.; Sörensen, Pia M.; Campàs, Otger; Castells, Pere; Rosenberg, Daniel; Brenner, Michael P.; Weitz, David A.

2014-01-01

Cooking is a tangible, familiar, and delicious tool for teaching physics, which is easy to implement in a university setting. Through our courses at Harvard and UCLA, each year we are engaging hundreds of undergraduate students, primarily non-science majors, in science concepts and the scientific research process. We find that weekly lectures by…

What people think about Ecological restoration and Related Topics: At a first look

Treesearch

Susan C. Barro; Nadine A. Bopp

1999-01-01

This study repersents a first step in gaining awareness of what people think about ecological and related concepts. Forty-one undergraduate nonscience majors at a liberal arts college in chicago were asked to define, explain, or illustrate the follong four terms: "forest preserves," "natural area," "ecological restoration," and "...

Space-Time, Relativity, and Cosmology

NASA Astrophysics Data System (ADS)

Wudka, Jose

2006-07-01

Space-Time, Relativity and Cosmology provides a historical introduction to modern relativistic cosmology and traces its historical roots and evolution from antiquity to Einstein. The topics are presented in a non-mathematical manner, with the emphasis on the ideas that underlie each theory rather than their detailed quantitative consequences. A significant part of the book focuses on the Special and General theories of relativity. The tests and experimental evidence supporting the theories are explained together with their predictions and their confirmation. Other topics include a discussion of modern relativistic cosmology, the consequences of Hubble's observations leading to the Big Bang hypothesis, and an overview of the most exciting research topics in relativistic cosmology. This textbook is intended for introductory undergraduate courses on the foundations of modern physics. It is also accessible to advanced high school students, as well as non-science majors who are concerned with science issues.• Uses a historical perspective to describe the evolution of modern ideas about space and time • The main arguments are described using a completely non-mathematical approach • Ideal for physics undergraduates and high-school students, non-science majors and general readers

Epistemologies and scientific reasoning skills among undergraduate science students

NASA Astrophysics Data System (ADS)

Mollohan, Katherine N.

Non-cognitive factors such as students' attitudes and beliefs toward a subject and their proficiency in scientific reasoning are important aspects of learning within science disciplines. Both factors have been studied in relation to science education in various discplines. This dissertation presents three studies that investigate student epistemologies and scientific reasoning in the domain of biology education. The first study investigated students' epistemic viewpoints in two introductory biology courses, one for science majors and one for non-science majors. This quantitative investigation revealed that the majors exhibited a negative shift in their attitudes and beliefs about biology and learning biology during a semester of introductory instruction. However, the non-science majors did not exhibit a similar shift. If fact, the non-science majors improved in their attitudes and beliefs during a semester of instruction, though not significantly so. The second study expands epistemological research to a population that has often been left out of this work, that is, intermediate-level biology majors. Quantitative and qualitative data was collected to reveal that junior and senior ranked students for the most part were able to characterize their views about biology and learning biology, and were able to associate factors with their epistemic improvement. Finally, the third study expands epistemology research further to determine if scientific reasoning and student attitudes and beliefs about learning science (specifically biology) are related. After a description of how various science and engineering majors compare in their scientific reasoning skills, this study indicated that among intermediate level biology majors there is no relationship between scientific reasoning skills and epistemologies, nor is there a relationship with other educational factors, including the number of courses taken during an undergraduate career, cumulative GPA, and standardized test scores (ACT). Taken together, the results of these studies can inform science education, particularly discipline-based education research in biology.

Investigating Art Objects through Collaborative Student Research Projects in an Undergraduate Chemistry and Art Course

ERIC Educational Resources Information Center

Wells, Gary; Haaf, Michael

2013-01-01

Inspired in part by Chemistry Collaborations, Workshops, and Community of Scholars workshops, the Chemistry and Art course offered at Ithaca College is team-taught by a chemist and an art historian, underscoring the complementary nature of the two disciplines. The course, populated primarily by nonscience majors, highlights the importance of using…

College Students' Conceptions of Stem Cells, Stem Cell Research, and Cloning

ERIC Educational Resources Information Center

Concannon, James P.; Siegel, Marcelle A.; Halverson, Kristy; Freyermuth, Sharyn

2010-01-01

In this study, we examined 96 undergraduate non-science majors' conceptions of stem cells, stem cell research, and cloning. This study was performed at a large, Midwest, research extensive university. Participants in the study were asked to answer 23 questions relating to stem cells, stem cell research, and cloning in an on-line assessment before…

Lakatos' Scientific Research Programmes as a Framework for Analysing Informal Argumentation about Socio-Scientific Issues

ERIC Educational Resources Information Center

Chang, Shu-Nu; Chiu, Mei-Hung

2008-01-01

The purpose of this study is to explore how Lakatos' scientific research programmes might serve as a theoretical framework for representing and evaluating informal argumentation about socio-scientific issues. Seventy undergraduate science and non-science majors were asked to make written arguments about four socio-scientific issues. Our analysis…

An Analysis of Metaphors Used by Students to Describe Energy in an Interdisciplinary General Science Course

ERIC Educational Resources Information Center

Lancor, Rachael

2015-01-01

The meaning of the term energy varies widely in scientific and colloquial discourse. Teasing apart the different connotations of the term can be especially challenging for non-science majors. In this study, undergraduate students taking an interdisciplinary, general science course (n?=?49) were asked to explain the role of energy in five contexts:…

Prior Knowledge Base of Constellations and Bright Stars among Non-Science Majoring Undergraduates and 14-15 Year Old Students

ERIC Educational Resources Information Center

Hintz, Eric G.; Hintz, Maureen L.; Lawler, M. Jeannette

2015-01-01

As part of an effort to improve students' knowledge of constellations and bright stars in an introductory level descriptive astronomy survey course, we measured the baseline knowledge that students bring to the class and how their score evolve over the course of the semester. This baseline is needed by the broader astronomy education research…

Science, Technology and the Liberal Arts: Report on a National Conference Held at Lehigh University (Bethlehem, Pennsylvania, April 1-3, 1984).

ERIC Educational Resources Information Center

Cutcliffe, Stephen H.; Goldman, Steven L.

This conference was designed to provide information on the development and implementation of seven undergraduate science courses primarily for non-science majors at Lehigh University, to examine what ought to be the objectives of courses such as these in the liberal arts curriculum, and to describe parallel efforts with similar educational…

Assessing the Efficacy of the Measure of Understanding of Macroevolution as a Valid Tool for Undergraduate Non-Science Majors

ERIC Educational Resources Information Center

Romine, William Lee; Walter, Emily Marie

2014-01-01

Efficacy of the Measure of Understanding of Macroevolution (MUM) as a measurement tool has been a point of contention among scholars needing a valid measure for knowledge of macroevolution. We explored the structure and construct validity of the MUM using Rasch methodologies in the context of a general education biology course designed with an…

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.

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.

SCALE-UP Your Astronomy and Physics Undergraduate Courses to Incorporate Heliophysics

NASA Astrophysics Data System (ADS)

Al-Rawi, Ahlam N.; Cox, Amanda; Hoshino, Laura; Fitzgerald, Cullen; Cebulka, Rebecca; Rodriguez Garrigues, Alvar; Montgomery, Michele; Velissaris, Chris; Flitsiyan, Elena

2016-01-01

Although physics and astronomy courses include heliophysics topics, students still leave these courses without knowing what heliophysics is and how heliophysics relates to their daily lives. To meet goals of NASA's Living With a Star Program of incorporating heliophysics into undergraduate curriculum, UCF Physics has modified courses such as Astronomy (for non-science majors), Astrophysics, and SCALE-UP: Electricity and Magnetism for Engineers and Scientists to incorporate heliophysics topics. In this presentation, we discuss these incorporations and give examples that have been published in NASA Wavelength. In an associated poster, we present data on student learnin

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.

Undergraduate Education with the WIYN 0.9-m Telescope

NASA Astrophysics Data System (ADS)

Pilachowski, Catherine A.

2017-01-01

Several models have been explored at Indiana University Bloomington for undergraduate student engagement in astronomy using the WIYN 0.9-m telescope at Kitt Peak. These models include individual student research projects using the telescope, student observations as part of an observational techniques course for majors, and enrichment activities for non-science majors in general education courses. Where possible, we arrange for students to travel to the telescope. More often, we are able to use simple online tools such as Skype and VNC viewers to give students an authentic observing experience. Experiences with the telescope motivate students to learn basic content in astronomy, including the celestial sphere, the electromagnetic spectrum, telescopes and detectors, the variety of astronomical objects, date reduction processes, image analysis, and color image creation and appreciation. The WIYN 0.9-m telescope is an essential tool for our program at all levels of undergraduate education

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.

Should applicants to Nottingham University Medical School study a non-science A-level? A cohort study.

PubMed

Yates, Janet; Smith, Jennifer; James, David; Ferguson, Eamonn

2009-01-21

It has been suggested that studying non-science subjects at A-level should be compulsory for medical students. Our admissions criteria specify only Biology, Chemistry and one or more additional subjects. This study aimed to determine whether studying a non-science subject for A-level is an independent predictor of achievement on the undergraduate medical course. The subjects of this retrospective cohort study were 164 students from one entry-year group (October 2000), who progressed normally on the 5-year undergraduate medical course at Nottingham. Pre-admission academic and socio-demographic data and undergraduate course marks were obtained. T-test and hierarchical multiple linear regression analyses were undertaken to identify independent predictors of five course outcomes at different stages throughout the course. There was no evidence that the choice of science or non-science as the third or fourth A-level subject had any influence on course performance. Demographic variables (age group, sex, and fee status) had some predictive value but ethnicity did not. Pre-clinical course performance was the strongest predictor in the clinical phases (pre-clinical Themes A&B (knowledge) predicted Clinical Knowledge, p < 0.001, and pre-clinical Themes C&D (skills) predicted Clinical Skills, p = or< 0.01). This study of one year group at Nottingham Medical School provided no evidence that the admissions policy on A-level requirements should specify the choice of third or fourth subject.

Should applicants to Nottingham University Medical School study a non-science A-level? A cohort study

PubMed Central

Yates, Janet; Smith, Jennifer; James, David; Ferguson, Eamonn

2009-01-01

Background It has been suggested that studying non-science subjects at A-level should be compulsory for medical students. Our admissions criteria specify only Biology, Chemistry and one or more additional subjects. This study aimed to determine whether studying a non-science subject for A-level is an independent predictor of achievement on the undergraduate medical course. Methods The subjects of this retrospective cohort study were 164 students from one entry-year group (October 2000), who progressed normally on the 5-year undergraduate medical course at Nottingham. Pre-admission academic and socio-demographic data and undergraduate course marks were obtained. T-test and hierarchical multiple linear regression analyses were undertaken to identify independent predictors of five course outcomes at different stages throughout the course. Results There was no evidence that the choice of science or non-science as the third or fourth A-level subject had any influence on course performance. Demographic variables (age group, sex, and fee status) had some predictive value but ethnicity did not. Pre-clinical course performance was the strongest predictor in the clinical phases (pre-clinical Themes A&B (knowledge) predicted Clinical Knowledge, p < 0.001, and pre-clinical Themes C&D (skills) predicted Clinical Skills, p = < 0.01). Conclusion This study of one year group at Nottingham Medical School provided no evidence that the admissions policy on A-level requirements should specify the choice of third or fourth subject. PMID:19159444

Assessing the efficacy of the Measure of Understanding of Macroevolution as a valid tool for undergraduate non-science majors

NASA Astrophysics Data System (ADS)

Romine, William Lee; Walter, Emily Marie

2014-11-01

Efficacy of the Measure of Understanding of Macroevolution (MUM) as a measurement tool has been a point of contention among scholars needing a valid measure for knowledge of macroevolution. We explored the structure and construct validity of the MUM using Rasch methodologies in the context of a general education biology course designed with an emphasis on macroevolution content. The Rasch model was utilized to quantify item- and test-level characteristics, including dimensionality, reliability, and fit with the Rasch model. Contrary to previous work, we found that the MUM provides a valid, reliable, and unidimensional scale for measuring knowledge of macroevolution in introductory non-science majors, and that its psychometric behavior does not exhibit large changes across time. While we found that all items provide productive measurement information, several depart substantially from ideal behavior, warranting a collective effort to improve these items. Suggestions for improving the measurement characteristics of the MUM at the item and test levels are put forward and discussed.

Science and Cooking: Motivating the Study of Freshman Physics

NASA Astrophysics Data System (ADS)

Weitz, David

2011-03-01

This talk will describe a course offered to Harvard undergraduates as a general education science course, meant to intrduce freshman-level science for non-science majors. The course was a collaboration between world-class chefs and science professors. The chefs introduced concepts of cooking and the professors used these to motivate scientific concepts. The lectures were designed to provide a coherent introduction to freshman physics, primarily through soft matter science. The lectures were supplemented by a lab experiments, designed by a team of very talented graduate students and post docs, that supplemented the science taught in lecture. The course was very successful in motivating non-science students to learn, and even enjoy, basic science concepts. This course depended on contributions from Michael Brenner, Otger Campas, Amy Rowat and a team of talented graduate student teaching fellows.

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 courses. The large enrollment SCALE-UP model as implemented at the host university did not increase science teaching self-efficacy of non-science majors, as hypothesized. This was likely due to limited modification of standard cooperative activities according to the inquiry-guided SCALE-UP model. It was also found that larger SCALE-UP enrollments did not decrease science teaching self-efficacy when standard cooperative activities were used in the larger class.

Visual Activities for Assessing Non-science Majors’ Understanding in Introductory Astronomy

NASA Astrophysics Data System (ADS)

Loranz, Daniel; Prather, E. E.; Slater, T. F.

2006-12-01

One of the most ardent challenges for astronomy teachers is to deeply and meaningfully assess students’ conceptual and quantitative understanding of astronomy topics. In an effort to uncover students’ actual understanding, members and affiliates of the Conceptual Astronomy and Physics Education Research (CAPER) Team at the University of Arizona and Truckee Meadows Community College are creating and field-testing innovative approaches to assessment. Leveraging from the highly successful work on interactive lecture demonstrations from astronomy and physics education research, we are creating a series of conceptually rich questions that are matched to visually captivating and purposefully interactive astronomical animations. These conceptually challenging tasks are being created to span the entire domain of topics in introductory astronomy for non-science majoring undergraduates. When completed, these sorting tasks and vocabulary-in-context activities will be able to be delivered via a drag-and-drop computer interface.

The Chemistry of Photography: Still a Terrific Laboratory Course for Nonscience Majors

ERIC Educational Resources Information Center

Sattar, Simeen

2017-01-01

Examination of photographic processes from the 19th century to the present digital age is an effective means to intellectually engage nonscience majors with science. A laboratory course for nonscience majors exploring these processes is described in this article. Ionic and covalent compounds, oxidation-reduction reactions, precipitation reactions,…

The academic and nonacademic characteristics of science and nonscience majors in Yemeni high schools

NASA Astrophysics Data System (ADS)

Anaam, Mahyoub Ali

The purposes of this study were: (a) to identify the variables associated with selection of majors; (b) to determine the differences between science and nonscience majors in general, and high and low achievers in particular, with respect to attitudes toward science, integrated science process skills, and logical thinking abilities; and (c) to determine if a significant relationship exists between students' majors and their personality types and learning styles. Data were gathered from 188 twelfth grade male and female high school students in Yemen, who enrolled in science (45 males and 47 females) and art and literature (47 males and 49 females) tracks. Data were collected by the following instruments: Past math and science achievement (data source taken from school records), Kolb's Learning Styles Inventory (1985), Integrated Science Process Skills Test, Myers-Briggs Type Indicator, Attitude Toward Science in School Assessment, Group Assessment of Logical Thinking, Yemeni High School Students Questionnaire. The Logistic Regression Model and the Linear Discriminant Analysis identified several variables that are associated with selection of majors. Moreover, some of the characteristics of science and nonscience majors that were revealed by these models include the following: Science majors seem to have higher degrees of curiosity in science, high interest in science at high school level, high tendency to believe that their majors will help them to find a potential job in the future, and have had higher achievement in science subjects, and have rated their math teachers higher than did nonscience majors. In contrast, nonscience majors seem to have higher degrees of curiosity in nonscience subjects, higher interest in science at elementary school, higher anxiety during science lessons than did science majors. In addition, General Linear Models allow that science majors generally demonstrate more positive attitudes towards science than do nonscience majors and they outperform nonscience majors on integrated science process skills and logical thinking abilities. High achievers in science majors have a significantly higher attitude toward science, higher integrated science process skills, and higher logical thinking abilities than high and low achievers in nonscience majors. No gender differences were found on these variables. Chi-Square tests indicate that no significant relationships exist between students' majors and their personality types and learning styles. However, it was found that majority of students prefer extroversion over introversion, sensing over intuition, thinking over feeling, and judging over perceiving. Moreover, the most common learning styles among science and nonscience majors were the divergent and the assimilative learning styles. Finally, the educational implication of these findings were discussed and future research that need to be conducted were proposed.

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 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. These results also suggested that students might not have realized that they were exclusively engaged in non-experimental type inquiries, as various research methods were not explicitly addressed. The intervention curriculum used a consistently phased stepwise format, which may also have led the students to accommodate their astronomy inquiry experiences within persistent misconceptions of "The Scientific Method" as the only valid means of constructing scientific knowledge, thereby leading to no change in understanding of MMS. The results of the study suggest that a scaffolded, inquiry-based, introductory astronomy laboratory curriculum purposefully designed and scaffolded to enhance students' understandings could be effective in enhancing undergraduate non-science majoring students' views of certain aspects of NOSI. Through scaffolding inquiry experiences that deliver multiple opportunities to engage in authentic scientific inquiries, the novel curriculum provides a valuable resource for the astronomy education community to engage students in learning experiences that reflect the contemporary views of constructivist inquiry-based learning, which focuses on the interpretation of data to create evidence in light of specific questions, as well as opportunities to engage in authentic scientific discourse. As such it can enable astronomy educators in the undergraduate teaching community to support student learning beyond astronomy content knowledge toward a more informed understanding of the process of scientific knowledge construction to the end of supporting proficiency in science and science literacy.

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?

Undergraduate Conceptions About What it Means to Study Something Scientifically

NASA Astrophysics Data System (ADS)

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

2014-11-01

Non-science major students represent individuals who will become productive members of society in non-science fields including our business leaders, policy makers, and teachers. Their college non-major science courses are often the last formal instruction they will receive in science. As such, it important to understand what students already know about science and provide instruction that is engaging and helps them gain a greater appreciation for doing science. We report on a study of almost 12,000 undergraduate students enrolled in introduction astronomy courses from 1989 - 2014, most of who were freshman or sophomore students. Almost every year during the 25 year period, students were asked to complete an in-class survey that included basic science content questions and attitude towards science questions. They were also asked to write a response to the question, “What does it mean to study something scientifically?”Sixty-five percent of responses were meaningful and considered to be on target. In their responses 16% of students described science as a way of gaining knowledge or learning about something. Twenty three percent of respondents described science as using observations or experimentation and 10% described it as involving a hypothesis. Only 8% of respondents mentioned data analysis while 6% described using data or evidence. Four percent of respondents mentioned science was a way to solve problems and 4% described science as being systematic. Students who were self-reported STEM majors (Pre-med, engineering, math, and science majors) more often mentioned that science is an empirical technique as well as the use of hypotheses in science STEM majors also mentioned data twice as often as non-STEM majors in their responses. Education majors, who made up 6% of the sample, had the least descriptive answers overall, and were the group who most often not include aspects that were essential to studying science.Gathering this information has helped characterize students’ knowledge about science and make instruction to support their knowledge

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 giving us insights into how our non-science majors get and evaluate scientific information.

Undergraduates achieve learning gains in plant genetics through peer teaching of secondary students.

PubMed

Chrispeels, H E; Klosterman, M L; Martin, J B; Lundy, S R; Watkins, J M; Gibson, C L; Muday, G K

2014-01-01

This study tests the hypothesis that undergraduates who peer teach genetics will have greater understanding of genetic and molecular biology concepts as a result of their teaching experiences. Undergraduates enrolled in a non-majors biology course participated in a service-learning program in which they led middle school (MS) or high school (HS) students through a case study curriculum to discover the cause of a green tomato variant. The curriculum explored plant reproduction and genetic principles, highlighting variation in heirloom tomato fruits to reinforce the concept of the genetic basis of phenotypic variation. HS students were taught additional activities related to mole-cular biology techniques not included in the MS curriculum. We measured undergraduates' learning outcomes using pre/postteaching content assessments and the course final exam. Undergraduates showed significant gains in understanding of topics related to the curriculum they taught, compared with other course content, on both types of assessments. Undergraduates who taught HS students scored higher on questions specific to the HS curriculum compared with undergraduates who taught MS students, despite identical lecture content, on both types of assessments. These results indicate the positive effect of service-learning peer-teaching experiences on undergraduates' content knowledge, even for non-science major students. © 2014 H. E. Chrispeels et al. CBE—Life Sciences Education © 2014 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).

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…

Undergraduate students' perspectives on primary care.

PubMed

Gold, Jessica A; Barg, Frances K; Margo, Katherine

2014-10-01

Despite the need for more primary care physicians, the number of medical students choosing primary care careers remains lower than other specialties. While undergraduate premedical education is an essential component in the development of future physicians, little is known about undergraduate students' perspectives on becoming primary care physicians. To better understand the early factors in career selection, we asked premed and former premed students their perceptions of primary care. Open-ended, semistructured interviews were conducted with 58 undergraduate students who represented three different groups: those who were currently premed and science majors, those who were nonscience majors and were currently premed, and those who were formerly premed. Specifically, we asked, "Why do you think there is a shortage of people who go into primary care?" Undergraduates cited financial reasons, lack of "glamour," and the career being "uninteresting." Many believed that primary care lacked prestige, and others felt it had a negative stigma attached. Most had never even considered a career in primary care. A number of students also misunderstood what a career in primary care actually entailed. As early as freshman year in college, undergraduate students harbor misconceptions and negative opinions about primary care. Many of those who express interest in such a career seem to drop out of the premedical program. It is important to consider the early onset of these attitudes and a way to target this interested population when trying to address the shortage of primary care physicians. © The Author(s) 2014.

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.

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.

Comparison of Views of the Nature of Science between Natural Science and Nonscience Majors

ERIC Educational Resources Information Center

Desaulniers Miller, Marie C.; Montplaisir, Lisa M.; Offerdahl, Erika G.; Cheng, Fu-Chih; Ketterling, Gerald L.

2010-01-01

Science educators have the common goal of helping students develop scientific literacy, including understanding of the nature of science (NOS). University faculties are challenged with the need to develop informed NOS views in several major student subpopulations, including science majors and nonscience majors. Research into NOS views of…

Predictors of Scientific Majors for Black and White College Students.

ERIC Educational Resources Information Center

Clark, M. L.; Pearson, W., Jr.

The differences in the personality and social backgrounds of college students majoring in science and nonscience fields were assessed with 91 black and 109 white students. The following categories of majors were compared: natural science, social science, and nonscience (education, business, history, and all others). The personality and attitudes…

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)

The Impact of Problem-Based Learning on Non-Science Undergraduate Students' Attitudes towards Mathematics in an Egyptian Classroom

NASA Astrophysics Data System (ADS)

Rizkallah, Mohammed W.

While Problem-based Learning (PBL) has been established in the literature in different contexts, there remains few studies on how PBL has an impact on students' attitude towards mathematics and their conceptual understanding of it in Egyptian classrooms. This study was conducted in an international university in Egypt, and the participants were non-science undergraduate students who took a course called "Fun with Problem-Solving" as a requirement core class. The study shows that students' attitude towards mathematics developed throughout the course, and this was tested using the Fennema-Sherman Mathematics Attitude Scale, where students had a pretest and posttest. While the sample size was small, there was statistical significance in the change of the means of how students perceived mathematics as a male domain, and how teachers perceived students' achievements. This notion was coupled with students' development of conceptual understanding, which was tracked throughout the semester by mapping students' work with the Lesh Translation Model.

A Study of Three Outcomes of a College Level Course in Physical Science for Nonscience Students (Adapted PSNS).

ERIC Educational Resources Information Center

Frangos, George John

This study was designed to determine if an adapted version of Physical Science for Nonscience Students (PSNS), a physical science course used for nonscience majors in college, significantly contributes to an understanding of the scientific enterprise, positive attitudes toward science and scientists, and knowledge of solid matter and the…

The Chemistry of Perfume: A Laboratory Course for Nonscience Majors

ERIC Educational Resources Information Center

Logan, Jennifer L.; Rumbaugh, Craig E.

2012-01-01

"The Chemistry of Perfume" is a lab-only course for nonscience majors. Students learn fundamental concepts of chemistry through the context of fragrance, a pervasive aspect of daily life. The course consists of laboratories pertaining to five units: introduction, extraction, synthesis, characterization, and application. The introduction unit…

The Astronomy Diagnostic Test: Past, Present and Future

NASA Astrophysics Data System (ADS)

Deming, G. L.; Hufnagel, B. R.

2000-12-01

During 1998, the Collaboration for Astronomy Education Research (Adams, Adrian, Brick, Deming, Hufnagel, Slater, and Zeilik) developed a content-based diagnostic test for undergraduate non-science majors taking their first introductory level astronomy course. Student interviews and written feedback were used to construct a series of questions reflecting the students' natural language and with distractors (wrong answers) that mirror commonly held misconceptions. Version 1.9 of the Astronomy Diagnostic Test (ADT) was administered during Spring 1999 by volunteers teaching astronomy at 22 institutions across the United States. Minor modifications were made and Version 2.0 was released on June 21, 1999. The ADT 2.0 currently is available to the astronomical community through two websites and we continue to collect pretest/posttest results. Award of an NSF Small Grant for Exploratory Research has enabled us to work with a team of education researchers at the Ontario Institute for Studies in Education. Our database will be subjected to a statistical analysis in order to establish reliability of ADT 2.0. In addition, content, face, and construct validity are being examined. If you are teaching an introductory astronomy course aimed at non-science majors for Spring 2001, your class can be part of this project. We are looking for volunteers! We are also interested in hearing your ideas for a "next-generation" version of the ADT. Funding provided by NSF grant REC-0089239

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.

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…

Case Study: Involving Freshmen Nonscience Majors in Case Writing--Lessons Learned

ERIC Educational Resources Information Center

Prud'homme-Genereux, Annie

2013-01-01

The objective of the project described in this article was to engage nonscience majors in a science communication assignment. Most of these students will not pursue careers in the sciences, so the traditional science communication formats (review papers, poster or oral presentation, lab reports) are not germane to their background, interests, and…

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…

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…

The Grapes of Class: Teaching Chemistry Concepts at a Winery

ERIC Educational Resources Information Center

Luck, Linda A.; Blondo, Ryan M.

2012-01-01

Nonscience majors often believe that the concepts and techniques in chemistry have little relevance to someone outside the "ivy-covered walls of academia". The challenge for science instructors is to develop and implement lessons that present science in a way that will capture the interest of the nonscience major, while remaining rigorous enough…

Circuit Board Analysis for Lead by Atomic Absorption Spectroscopy in a Course for Nonscience Majors

ERIC Educational Resources Information Center

Weidenhammer, Jeffrey D.

2007-01-01

A circuit board analysis of the atomic absorption spectroscopy, which is used to measure lead content in a course for nonscience majors, is being presented. The experiment can also be used to explain the potential environmental hazards of unsafe disposal of various used electronic equipments.

Design of a Food Chemistry-Themed Course for Nonscience Majors

ERIC Educational Resources Information Center

Bell, Patrice

2014-01-01

The physical science curriculum design at Georgia Gwinnett College requires a theme-based course (lecture and group work, and laboratory) for nonscience majors. Increased student engagement is anticipated when science topics are taught in the context of a topic of which students can select during course registration. This paper presents the course…

Engaging Today's Studentsin Earth Science 101

NASA Astrophysics Data System (ADS)

Zimmerman, Andrew R.; Smith, Matthew C.

2006-08-01

It is a sad fact, or perhaps a happy one,that many geoscientists in academia willfind themselves in front of a classroom of100-300 undergraduate nonscience majors,lecturing to them for three hours per week.Whether it is `Rocks for Jocks' or `Waves forBabes,' students often are under the impressionthat geoscience classes will be the leastpainful way to fulfill their science creditrequirements. The sense of personal anonymitythat can accompany large-enrollmentclasses often results in a different level ofstudent engagement compared with smallerclasses. Thus, if students are physically presentat all, instructors often have only theirmuch-divided attention. How can professorskeep 300 students, even the ones in the backof the classroom who are barely visible,awake and engaged?

A Multi-Technique Forensic Experiment for a Nonscience-Major Chemistry Course

ERIC Educational Resources Information Center

Szalay, Paul S.; Zook-Gerdau, Lois Anne; Schurter, Eric J.

2011-01-01

This multi-technique experiment with a forensic theme was developed for a nonscience-major chemistry course. The students are provided with solid samples and informed that the samples are either cocaine or a combination of drugs designed to mimic the stimulant and anesthetic qualities of cocaine such as caffeine and lidocaine. The students carry…

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…

Forecasting Periodic Trends: A Semester-Long Team Exercise for Nonscience Majors

ERIC Educational Resources Information Center

Tierney, John

2008-01-01

Team learning is an effective means of teaching that can contribute toward increased student interest. This article describes a team learning exercise developed for a course for nonscience majors. Students are randomly assigned numbers (atomic numbers) the first day of class. Each student builds a portfolio of information for their element. In the…

Science and the Nonscience Major: Addressing the Fear Factor in the Chemical Arena Using Forensic Science

ERIC Educational Resources Information Center

Labianca, Dominick A.

2007-01-01

This article describes an approach to minimizing the "fear factor" in a chemistry course for the nonscience major, and also addresses relevant applications to other science courses, including biology, geology, and physics. The approach emphasizes forensic science and affords students the opportunity to hone their analytical skills in an…

Teaching Cell Biology to Nonscience Majors through Forensics, or How to Design a Killer Course

ERIC Educational Resources Information Center

Arwood, Laura

2004-01-01

Nonscience majors often do not respond to traditional lecture-only biology courses. However, these students still need exposure to basic biological concepts. To accomplish this goal, forensic science was paired with compatible cell biology subjects. Several topics such as human development and molecular biology were found to fulfill this purpose.…

The Structure and Assessment of a Unique and Popular Interdisciplinary Science Course for Nonmajors

ERIC Educational Resources Information Center

Train, Tonya Laakko; Gammon, David E.

2012-01-01

Science Without Borders is a unique interdisciplinary science course that uses group and active-learning strategies and is in high demand among nonscience majors at a masters-level university. Registrar data showed that nonscience majors were far more likely to choose this course compared with other, discipline-based science courses. In an…

Living With and Learning about Radioactivity: A Comparative Conceptual Study.

ERIC Educational Resources Information Center

Alsop, Steve

2001-01-01

Documents a quasi-scientific comparative study of two groups of 'recent school leavers' in the UK. Studies non-science university undergraduates and explores whether people living with the immediacy and relevance of higher-than-average levels of radioactivity were more knowledgeable and emotionally detached than a similar group removed from this…

Alternative Conceptions of Plate Tectonics Held by Nonscience Undergraduates

ERIC Educational Resources Information Center

Clark, Scott K.; Libarkin, Julie C.; Kortz, Karen M.; Jordan, Sarah C.

2011-01-01

The theory of plate tectonics is the conceptual model through which most dynamic processes on Earth are understood. A solid understanding of the basic tenets of this theory is crucial in developing a scientifically literate public and future geoscientists. The size of plates and scale of tectonic processes are inherently unobservable,…

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 was supported in part by NSF DGE-9714489 (BH) and NASA Grant #CERES-NAG54576 (TS).

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…

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…

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…

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,…

Analyzing Lead Content in Ancient Bronze Coins by Flame Atomic Absorption Spectroscopy: An Archaeometry Laboratory with Nonscience Majors

ERIC Educational Resources Information Center

Donais, Mary Kate; Whissel, Greg; Dumas, Ashley; Golden, Kathleen

2009-01-01

A unique, interdisciplinary collaboration between chemistry and classics has led to the development of an experiment for nonscience majors. This instrumental analysis experiment was designed for use in an archaeology course to quantify the amount of lead in ancient bronze coins. The coins were corroded beyond visual identification, so provenance…

Nonscience Majors' Perceptions on the Use of YouTube Video to Support Learning in an Integrated Science Lecture

ERIC Educational Resources Information Center

Eick, Charles Joseph; King, David T., Jr.

2012-01-01

The instructor of an integrated science course for nonscience majors embedded content-related video segments from YouTube and other similar internet sources into lecture. Through this study, the instructor wanted to know students' perceptions of how video use engaged them and increased their interest and understanding of science. Written survey…

Dorm Room Labs for Introductory Large-Lecture Science Classes for Nonscience Majors

ERIC Educational Resources Information Center

Moldwin, Mark B.

2018-01-01

Many large-lecture introductory science courses for nonscience majors do not have a lab component and hence do not provide much opportunity for students to engage in the practice of science. I have developed a new instructional activity called Dorm Room Labs that enables students to conduct hands-on activities as homework (or dorm room work) to…

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…

The effects of topic choice in project-based instruction on undergraduate physical science students' interest, ownership, and motivation

NASA Astrophysics Data System (ADS)

Milner-Bolotin, Marina

2001-07-01

Motivating nonscience majors in science and mathematics studies became one of the most interesting and important challenges in contemporary science and mathematics education. Therefore, designing and studying a learning environment, which enhances students' motivation, is an important task. This experimental study sought to explore the implications of student autonomy in topic choice in a project-based Physical Science Course for nonscience majors' on students' motivational orientation. It also suggested and tested a model explaining motivational outcomes of project-based learning environment through increased student ownership of science projects. A project, How Things Work, was designed and implemented in this study. The focus of the project was application of physical science concepts learned in the classroom to everyday life situations. Participants of the study (N = 59) were students enrolled in three selected sections of a Physical Science Course, designed to fulfill science requirements for nonscience majors. These sections were taught by the same instructor over a period of an entire 16-week semester at a large public research university. The study focused on four main variables: student autonomy in choosing a project topic, their motivational orientation, student ownership of the project, and the interest in the project topic. Achievement Goal Orientation theory became the theoretical framework for the study. Student motivational orientation, defined as mastery or performance goal orientation, was measured by an Achievement Goal Orientation Questionnaire. Student ownership was measured using an original instrument, Ownership Measurement Questionnaire, designed and tested by the researchers. Repeated measures yoked design, ANOVA, ANCOVA, and multivariate regression analysis were implemented in the study. Qualitative analysis was used to complement and verify quantitative results. It has been found that student autonomy in the project choice did not make a significant impact on their motivational orientation, while their initial interest in the project topic did. The latter was found to be related to students' ownership of the project, which was found to lead to improved mastery goal orientation. These findings indicate that incorporating project-based learning in science teaching may lead to increased student mastery goal orientation, and may result in improved science learning.

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.

Living With Earthquakes in the Pacific Northwest: A Survivor's Guide, 2nd edition

NASA Astrophysics Data System (ADS)

Hutton, Kate

In 1995, Robert S.Yeats found himself teaching a core curriculum class at Oregon State University for undergraduate nonscience majors, linking recent discoveries on the earthquake hazard in the Pacific Northwest to societal response to those hazards. The notes for that course evolved into the first edition of this book, published in 1998. In 2001, he published a similar book, Living With Earthquakes in California: A Survivors Guide (Oregon State University Press).Recent earthquakes, such as the 2001 Nisqually Mw6.8, discoveries, and new techniques in paleoseismology plus changes in public policy decisions, quickly outdated the first Pacific Northwest edition. This is especially true with the Cascadia Subduction Zone and crustal faults, where our knowledge expands with every scientific meeting.

Understanding diffusion theory and Fick's law through food and cooking.

PubMed

Zhou, Larissa; Nyberg, Kendra; Rowat, Amy C

2015-09-01

Diffusion is critical to physiological processes ranging from gas exchange across alveoli to transport within individual cells. In the classroom, however, it can be challenging to convey the concept of diffusion on the microscopic scale. In this article, we present a series of three exercises that use food and cooking to illustrate diffusion theory and Fick's first law. These exercises are part of a 10-wk undergraduate course that uses food and cooking to teach fundamental concepts in physiology and biophysics to students, including nonscience majors. Consistent demonstration of practical applications in a classroom setting has the potential to fundamentally change how students view the role of science in their lives (15). Copyright © 2015 The American Physiological Society.

Science and Non-Science Undergraduate Students' Critical Thinking and Argumentation Performance in Reading a Science News Report

ERIC Educational Resources Information Center

Lin, Shu-Sheng

2014-01-01

A scientifically literate person should be able to engage and critique science news reports about socioscientific issues from a variety of information sources. Such engagement involves critical thinking and argumentation skills to determine if claims made are justified by evidence and explained by reasonable explanations. This study explored…

Analysis of Errors Made by Students Solving Genetics Problems.

ERIC Educational Resources Information Center

Costello, Sandra Judith

The purpose of this study was to analyze the errors made by students solving genetics problems. A sample of 10 non-science undergraduate students was obtained from a private college in Northern New Jersey. The results support prior research in the area of genetics education and show that a weak understanding of the relationship of meiosis to…

Introducing Interactive Teaching Styles into Astronomy Lectures

NASA Astrophysics Data System (ADS)

Deming, G. L.

1997-12-01

The majority of undergraduate students who take an astronomy class are non-science majors attempting to satisfy a science requirement. Often in these "scientific literacy" courses, facts are memorized for the exam and forgotten shortly afterwards. Scientific literacy courses should advance student skills toward processing information and applying higher order thinking rather than simple recall and memorization of facts. Thinking about material as it is presented, applying new knowledge to solve problems, and thinking critically about topics are objectives that many astronomy instructors hope their students are achieving. A course in astronomy is more likely to achieve such goals if students routinely participate in their learning. Interactive techniques can be quite effective even in large classes. Examples of activities are presented that involve using cooperative learning techniques, writing individual and group "minute papers," identifying and correcting misconceptions, including the whole class in a demonstration, and applying knowledge to new situations.

Practical Activities in Astronomy for Nonscience Students.

ERIC Educational Resources Information Center

Bisard, Walter J.

1985-01-01

Describes science activities which have been successful with nonscience majors. Each activity requires students to make observations, record the data gathered, interpret data, and prepare a written report. Subject areas include motion of stars, sunspots, lunar orbits, sunset points, meteor showers, and sun shadows. (JN)

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,…

Science Anxiety and Gender in Students Taking General Education Science Courses

NASA Astrophysics Data System (ADS)

Udo, M. K.; Ramsey, G. P.; Mallow, J. V.

2004-12-01

Earlier studies [Mallow, J. V. (1994). Gender-related science anxiety: A first binational study. Journal of Science Education and Technology 3: 227-238; Udo, M. K., Ramsey, G. P., Reynolds-Alpert, S., and Mallow, J. V. (2001). Does physics teaching affect gender-based science anxiety? Journal of Science Education and Technology 10: 237-247] of science anxiety in various student cohorts suggested that nonscience majors were highly science anxious (SA), regardless of what science courses they were taking. In this study, we investigated science anxiety in a cohort consisting mostly of nonscience majors taking general education science courses. Regression analysis shows that the leading predictors of science anxiety are (i) nonscience anxiety and (ii) gender, as they were for different cohorts in the earlier studies. We confirm earlier findings that females are more SA than males. Chi-square analysis of acute science anxiety shows an amplification of these differences. We found statistically significant levels of science anxiety in humanities and social science students of both genders, and gender differences in science anxiety, despite the fact that the students were all enrolled in general education science courses specifically designed for nonscience majors. We found acute levels of anxiety in several groups, especially education, nursing, and business majors. We describe specific interventions to alleviate science anxiety.

Reaching the Students: A New Approach to Enhancing Science Literacy

NASA Astrophysics Data System (ADS)

McNamara, B. J.; Burnham, C. C.

2002-05-01

Most NSF supported programs directed at improving science literacy among university students who are not majoring in SMET normally target instruction in introductory science or math classes. Unfortunately these efforts seldom reach the vast majority of students at a university because students can fulfil their science requirement by taking several other classes or class sections that are not impacted by the NSF program. Ideally it would be desirable to address the issues of science literacy and science anxiety among non-science majors in a single class that is required of essentially all undergraduates. We describe such a program which is being tested at NMSU. The targeted class is the university's freshman level English class. The idea behind this effort is to provide students with the skills they will need to be successful in their science classes in a less threatening humanities environment. We describe the problems that this approach raises, suggest solutions to these problems, and then discuss the overall status of this effort.

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-week section on Earthquakes, teams study the effects of seismic motion on sediments underlying the Charleston, South Carolina region. Students discover areas where the greatest damage occurred during the 1886 earthquake via a walking tour of Charleston. Extracting information from historical and topographic maps, and aerial and satellite imagery provides students with the necessary information to produce an earthquake hazard map of the area. Applying the creativity and knowledge base of the multidisciplinary students generates a startling array of innovative methods for communicating their results: brochures, storybooks, computer-animated hazard maps, Facebook pages, YouTube videos - even Virtual Reality avatars! When allowed to use their imaginations and resourcefulness, these students have no bounds! Not only does the application of inquiry-based problem solving methodology in conjunction with cooperative learning enhance comprehension of the material, but by allowing undergraduate students to develop methods of communicating their knowledge to the public through an interesting variety of medium, students remain focused, engaged, and even excited about learning science that otherwise intimidated them.

The Education and Public Outreach Program at the University of Virginia

NASA Astrophysics Data System (ADS)

Murphy, E. M.; Rood, R. T.; Patterson, R. J.

2003-12-01

The Department of Astronomy at the University of Virginia has embarked on an ambitious program to expand their education and public outreach (E/PO) program. The comprehensive program addresses undergraduate education for non-science majors, teacher professional development, outreach programs for local schools, informal science education through collaborations with museums, and outreach through the public night program at McCormick Observatory. This poster presents example programs and their outcomes, including funding and staffing strategies. We believe that this E/PO program could serve as a model for other departments wishing to begin, or expand, an E/PO program. The E/PO program has been supported by funding from the Celerity Foundation, the University of Virginia, and NASA E/PO supplements to Chandra, HST, SIM, and FUSE science programs.

Debates of science vs. religion in undergraduate general education cosmology courses

NASA Astrophysics Data System (ADS)

Lopez-Aleman, Ramon

2015-04-01

Recent advances in theoretical physics such as the discovery of the Higgs boson or the BICEP2 data supporting inflation can be part of the general science curriculum of non-science majors in a cosmology course designed as part of the General Education component. Yet to be a truly interdisciplinary experience one must deal with the religious background and faith of most of our students. Religious faith seems to be important in their lives, but the philosophical outlook of sciences like cosmology or evolutionary biology is one in which God is an unnecessary component in explaining the nature and origin of the universe. We will review recent advances in cosmology and suggestions on how to establish a respectful and intelligent science vs. religion debate in a transdisciplinary general education setting.

Laboratory exercises on oscillation modes of pipes

NASA Astrophysics Data System (ADS)

Haeberli, Willy

2009-03-01

This paper describes an improved lab setup to study the vibrations of air columns in pipes. Features of the setup include transparent pipes which reveal the position of a movable microphone inside the pipe; excitation of pipe modes with a miniature microphone placed to allow access to the microphone stem for open, closed, or conical pipes; and sound insulation to avoid interference between different setups in a student lab. The suggested experiments on the modes of open, closed, and conical pipes, the transient response of a pipe, and the effect of pipe diameter are suitable for introductory physics laboratories, including laboratories for nonscience majors and music students, and for more advanced undergraduate laboratories. For honors students or for advanced laboratory exercises, the quantitative relation between the resonance width and damping time constant is of interest.

Teaching climate change: A 16-year record of introducing undergraduates to the fundamentals of the climate system and its complexities

NASA Astrophysics Data System (ADS)

Winckler, G.; Pfirman, S. L.; Hays, J. D.; Schlosser, P.; Ting, M.

2011-12-01

Responding to climate change challenges in the near and far future, will require a wide range of knowledge, skills and a sense of the complexities involved. Since 1995, Columbia University and Barnard College have offered an undergraduate class that strives to provide students with some of these skills. The 'Climate System' course is a component of the three-part 'Earth Environmental Systems' series and provides the fundamentals needed for understanding the Earth's climate system and its variability. Being designed both for science majors and non-science majors, the emphasis of the course is on basic physical explanations, rather than mathematical derivations of the laws that govern the climate system. The course includes lectures, labs and discussion. Laboratory exercises primarily explore the climate system using global datasets, augmented by hands-on activities. Course materials are available for public use at http://eesc.columbia.edu/courses/ees/climate/camel_modules/ and http://ncseonline.org/climate/cms.cfm?id=3783. In this presentation we discuss the experiences, challenges and future demands of conveying the science of the Earth's Climate System and the risks facing the planet to a wide spectrum of undergraduate students, many of them without a background in the sciences. Using evaluation data we reflect how the course, the students, and the faculty have evolved over the past 16 years as the earth warmed, pressures for adaptation planning and mitigation measures increased, and public discourse became increasingly polarized.

Non-Science Majors' Critical Evaluation of Websites in a Biotechnology Course

NASA Astrophysics Data System (ADS)

Halverson, Kristy L.; Siegel, Marcelle A.; Freyermuth, Sharyn K.

2010-12-01

Helping students develop criteria for judgment and apply examination skills is essential for promoting scientific literacy. With the increasing availability of the Internet, it is even more essential that students learn how to evaluate the science they gather from online resources. This is particularly true because publishing information on the web is not restricted to experts, and content quality can vary greatly across websites. The responsibility of evaluating websites falls upon the user. Little research has examined undergraduates' evaluation of web sites in science classes. The purpose of this study was to investigate on which websites college students selected and how they evaluated the websites used when developing individual positions about stem-cell research. We used a qualitative approach in search of patterns in undergraduates' website selection and evaluation criteria. We found that students used a variety of web resources from eleven types of websites to complete their independent research report. Students also used eleven evaluation criteria to evaluate these sources, some useful (e.g., credibility) and some not useful (e.g., readability). We found that university students struggled with critically evaluating online resources. Undergraduates need prompts to learn how to critically evaluate the science content provided within websites. This type of scaffold can facilitate useful evaluation and promote critical thinking required for becoming scientifically literate.

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.

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.

Promoting Physical Understanding through Peer Mentoring

NASA Astrophysics Data System (ADS)

Nossal, S. M.; Huesmann, A.; Hooper, E.; Moore, C.; Watson, L.; Trestrail, A.; Weber, J.; Timbie, P.; Jacob, A.

2015-12-01

The Physics Learning Center at the University of Wisconsin-Madison provides a supportive learning community for students studying introductory physics, as well as teaching and leadership experience for undergraduate Peer Mentor Tutors who receive extensive training and supervision. Many of our Peer Tutors were former Physics Learning Center participants. A central goal of the Physics Learning Center is to address achievement/equity gaps (e.g. race, gender, socio-economic status, disability, age, transfer status, etc.) for undergraduate students pursuing majors and coursework in STEM fields. Students meet twice a week in small learning teams of 3-8 students, facilitated by a trained Peer Mentor Tutor or staff member. These active learning teams focus on discussing core physical concepts and practicing problem-solving. The weekly training of the tutors addresses both teaching and mentoring issues in science education such as helping students to build confidence, strategies for assessing student understanding, and fostering a growth mindset. A second weekly training meeting addresses common misconceptions and strategies for teaching specific physics topics. For non-science majors we have a small Peer Mentor Tutor program for Physics in the Arts. We will discuss the Physics Learning Center's approaches to promoting inclusion, understanding, and confidence for both our participants and Peer Mentor Tutors, as well as examples from the geosciences that can be used to illustrate introductory physics concepts.

Teaching Physics at a Business College: Challenges and Opportunities

NASA Astrophysics Data System (ADS)

Finberg, Sharon

2003-10-01

Most physicists are familiar with the challenge of teaching physics to non-science students. At Bentley College, a premier business university, we have unique challenges and opportunities. Newsweek magazine (Sept. 1, 2003) named Bentley College among the 12 "Hot Schools" for 2004 and the most "career-focused." Undergraduates intent on business majors often perceive physics as unbearable and opt for courses in other science disciplines to fulfill requirements. Within a relatively short period of time, I have successfully applied various strategies to attract these business-minded students to our one-semester "Basic Physics" course, such changing to a highly experiential course and including examples from many consumer products. Innovative one-semester elective courses aimed at specific interests such as energy, sports, music and the visual arts meet the challenge of enticing students to physics courses to complete their math/science elective requirement.

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.

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.

Integrating Brain Science into Health Studies: An Interdisciplinary Course in Contemplative Neuroscience and Yoga

PubMed Central

Wolfe, Uta; Moran, Amy

2017-01-01

As neuroscience knowledge grows in its scope of societal applications so does the need to educate a wider audience on how to critically evaluate its research findings. Efforts at finding teaching approaches that are interdisciplinary, accessible and highly applicable to student experience are thus ongoing. The article describes an interdisciplinary undergraduate health course that combines the academic study of contemplative neuroscience with contemplative practice, specifically yoga. The class aims to reach a diverse mix of students by teaching applicable, health-relevant neuroscience material while directly connecting it to first-hand experience. Outcomes indicate success on these goals: The course attracted a wide range of students, including nearly 50% non-science majors. On a pre/post test, students showed large increases in their knowledge of neuroscience. Students’ ratings of the course overall, of increases in positive feelings about its field, and of their progress on specific course objectives were highly positive. Finally, students in their written work applied neuroscience course content to their personal and professional lives. Such results indicate that this approach could serve as a model for the interdisciplinary, accessible and applied integration of relevant neuroscience material into the undergraduate health curriculum. PMID:29371845

Science Literacy of Undergraduates in the United States

NASA Astrophysics Data System (ADS)

Impey, Chris

2013-01-01

Science literacy is a matter of broad concern among scientists, educators, and many policy-makers. National Science Foundation surveys of the general public for biannual Science Indicators series show that respondents on average score less than 2/3 correct on a series of science knowledge questions, and less than half display an understanding of the process of scientific inquiry. Both measures are essentially unchanged over two decades. At the University of Arizona, we have gathered over 11,000 undergraduate student responses to a survey of knowledge and beliefs that is tethered in the NSF survey. This non-science major population demographically represents ten million students nationwide. There is a less than 10% gain in performance in the science knowledge score between the incoming freshmen and seniors who graduate having completed their requirement of three science classes. Belief levels in pseudoscience and supernatural phenomena are disconcertingly high, mostly resistant to college science instruction, and weakly correlated with performance on the science knowledge questions. The Internet is rapidly becoming the primary information source for anyone interested in science so students may not get most of their information from the classroom. Educators and policy makers need to decide what aspects of science knowledge and process are important for adults to know. College science educators have major challenges in better in preparing graduates for participation in a civic society largely driven by science and technology.

Investigating the Relationship between Students' Science Knowledge and Their Reported Sources of Information

NASA Astrophysics Data System (ADS)

Buxner, S.; Romine, J.; Impey, C.; Nieberding, M.

2015-11-01

Building on a 25 year study of undergraduate students' science literacy, we have been investigating where students report getting information about science. In this study, we investigated the relationship between students' basic science knowledge, responses about studying something scientifically, and where they report gaining information about science. Data for this study was collected through an online survey of astronomy courses during 2014. Responses were collected from a total of 400 students through online surveys. Most survey respondents were non-science majors in the first two years of college who had taken 3 or fewer college science courses. Our results show a relationship between students who report online searches and Wikipedia as reliable sources of information and lower science literacy scores, although there was no relationship between science knowledge and where students report getting information about science. Our results suggest that information literacy is an important component to overall science literacy.

Sorting Tasks and Vocabulary-in-Context Activities for Assessing Introductory Astronomy Understanding

NASA Astrophysics Data System (ADS)

Slater, Timothy F.; Loranz, D.; Prather, E. E.

2006-12-01

One of the most ardent challenges for astronomy teachers is to deeply and meaningfully assess students’ conceptual and quantitative understanding of astronomy topics. In an effort to uncover students’ actual understanding, members and affiliates of the Conceptual Astronomy and Physics Education Research (CAPER) Team at the University of Arizona and Truckee Meadows Community College are creating and field-testing innovative approaches to assessment. Leveraging from the highly successful work from physics education research, we are creating a series of tasks where students categorize a list describing common astronomical events or phenomenon; or vocabulary terms into context rich categories or conceptually rich sentences. These intellectually challenging tasks are being created to span the entire domain of topics in introductory astronomy for non-science majoring undergraduates. When completed, these sorting tasks and vocabulary-in-context activities will be able to be delivered via a drag-and-drop computer interface.

Learning About Energy Resources Through Student Created Video Documentaries in the University Science Classroom

NASA Astrophysics Data System (ADS)

Wade, P.; Courtney, A.

2010-12-01

Students enrolled in an undergraduate non-science majors’ Energy Perspectives course created 10-15 minute video documentaries on topics related to Energy Resources and the Environment. Video project topics included wave, biodiesel, clean coal, hydro, solar and “off-the-grid” energy technologies. No student had any prior experience with creating video projects. Students had Liberal Arts academic backgrounds that included Anthropology, Theater Arts, International Studies, English and Early Childhood Education. Students were required to: 1) select a topic, 2) conduct research, 3) write a narrative, 4) construct a project storyboard, 5) shoot or acquire video and photos (from legal sources), 6) record the narrative, and 7) construct the video documentary. This study describes the instructional approach of using student created video documentaries as projects in an undergraduate non-science majors’ science course. Two knowledge survey instruments were used for assessment purposes. Each instrument was administered Pre-, Mid- and Post course. One survey focused on the skills necessary to research and produce video documentaries. Results showed students acquired enhanced technology skills especially with regard to research techniques, writing skills and video editing. The second survey assessed students’ content knowledge acquired from each documentary. Results indicated students’ increased their content knowledge of energy resource topics. Students reported very favorable evaluations concerning their experience with creating “Ken Burns” video project documentaries.

Using Research Data to Stimulate Critical Thinking in Undergraduate Geoscience Courses: Examples and Future Directions

NASA Astrophysics Data System (ADS)

Reed, D. L.; Moore, G. F.; Bangs, N. L.; Tobin, H.

2007-12-01

The results of major research initiatives, such as NSF-MARGINS, IODP and its predecessors DSDP and ODP, Ridge 2000, and NOAA's Ocean Explorer and Vents Programs provide a rich library of resources for inquiry-based learning in undergraduate classes in the geosciences. These materials are scalable for use in general education courses for the non-science major to upper division major and graduate courses, which are both content-rich and research-based. Examples of these materials include images and animations drawn from computer presentations at research workshops and audio/video clips from web sites, as well as data repositories, which can be accessed through GeoMapApp, a data exploration and visualization tool developed as part of the Marine Geoscience Data System by researchers at the LDEO (http://www.geomapapp.org/). Past efforts have focused on recreating sea-going research experiences by integrating and repurposing these data in web-based virtual environments to stimulate active student participation in laboratory settings and at a distance over the WWW. Virtual expeditions have been created based on multibeam mapping of the seafloor near the Golden Gate, bathymetric transects of the major ocean basins, subduction zone seismicity and related tsunamis, water column mapping and submersible dives at hydrothermal vents, and ocean drilling of deep-sea sediments to explore climate change. Students also make use of multichannel seismic data provided through the Marine Seismic Data Center of UTIG to study subduction zone processes at convergent plate boundaries. We will present the initial stages of development of a web-based virtual expedition for use in undergraduate classes, based on a recent 3-D seismic survey associated with the NanTroSEIZE program of NSF-MARGINS and IODP to study the properties of the plate boundary fault system in the upper limit of the seismogenic zone off Japan.

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.

Undergraduate basic science preparation for dental school.

PubMed

Humphrey, Sue P; Mathews, Robert E; Kaplan, Alan L; Beeman, Cynthia S

2002-11-01

In the Institute of Medicines report Dental Education at the Crossroads, it was suggested that dental schools across the country move toward integrated basic science education for dental and medical students in their curricula. To do so, dental school admission requirements and recommendations must be closely reviewed to ensure that students are adequately prepared for this coursework. The purpose of our study was twofold: 1) to identify student dentists' perceptions of their predental preparation as it relates to course content, and 2) to track student dentists' undergraduate basic science course preparation and relate that to DAT performance, basic science course performance in dental school, and Part I and Part II National Board performance. In the first part of the research, a total of ninety student dentists (forty-five from each class) from the entering classes of 1996 and 1997 were asked to respond to a survey. The survey instrument was distributed to each class of students after each completed the largest basic science class given in their second-year curriculum. The survey investigated the area of undergraduate major, a checklist of courses completed in their undergraduate preparation, the relevance of the undergraduate classes to the block basic science courses, and the strength of requiring or recommending the listed undergraduate courses as a part of admission to dental school. Results of the survey, using frequency analysis, indicate that students felt that the following classes should be required, not recommended, for admission to dental school: Microbiology 70 percent, Biochemistry 54.4 percent, Immunology 57.78 percent, Anatomy 50 percent, Physiology 58.89 percent, and Cell Biology 50 percent. The second part of the research involved anonymously tracking undergraduate basic science preparation of the same students with DAT scores, the grade received in a representative large basic science course, and Part I and Part II National Board performance. Using T-test analysis correlations, results indicate that having completed multiple undergraduate basic science courses (as reported by AADSAS BCP hours) did not significantly (p < .05) enhance student performance in any of these parameters. Based on these results, we conclude that student dentists with undergraduate preparation in science and nonscience majors can successfully negotiate the dental school curriculum, even though the students themselves would increase admission requirements to include more basic science courses than commonly required. Basically, the students' recommendations for required undergraduate basic science courses would replicate the standard basic science coursework found in most dental schools: anatomy, histology, biochemistry, microbiology, physiology, and immunology plus the universal foundation course of biology.

Teaching Cell Biology to Nonscience Majors Through Forensics, or How to Design a Killer Course

PubMed Central

Arwood, Laura

2004-01-01

Nonscience majors often do not respond to traditional lecture-only biology courses. However, these students still need exposure to basic biological concepts. To accomplish this goal, forensic science was paired with compatible cell biology subjects. Several topics such as human development and molecular biology were found to fulfill this purpose. Another goal was to maximize the hands-on experience of the nonscience major students. This objective was fulfilled by specific activities such as fingerprinting and DNA typing. One particularly effective teaching tool was a mock murder mystery complete with a Grand Jury trial. Another objective was to improve students' attitudes toward science. This was successful in that students felt more confident in their own scientific abilities after taking the course. In pre/post tests, students answered four questions about their ability to conduct science. All four statements showed a positive shift after the course (p values ranging from .001 to .036, df = 23; n = 24). The emphasis on experiential pedagogy was also shown to increase critical thinking skills. In pre/post testing, students in this course significantly increased their performance on critical thinking assessment tests from 33.3% correct to 45.3% (p = .008, df = 4; n = 24). PMID:15257341

Two-Year College Chemistry Conference Proceedings: Southern Regional Conference, (2nd, Little Rock, December 9, 1967); Eastern Regional Conference (1st, Philadelphia, February 2-3, 1968); and Annual Conference (8th, San Francisco, March 29-30, 1968).

ERIC Educational Resources Information Center

Chapman, Kenneth, Ed.

This report on three junior college chemistry conferences includes: (1) new and developing programs in 2-year college chemistry; (2) beginning chemistry offerings--repair of poor backgrounds in chemistry and math; (3) non-science major--chemistry program for non-science students; (4) first-year chemistry course: (a) programmed audio-tutorial…

Earth System Science Online: An Innovative Course for Non-traditional Students, Offered by Hampton University

NASA Astrophysics Data System (ADS)

Robinson, D. Q.; Kozusko, F.; Maggi, B. H.

2003-12-01

Hampton University (HU), a historically black university, is currently offering an innovative online course, Earth System Science Online, for teachers, future teachers, non-science undergraduate majors, and mature non-traditional students continuing their education. Supported by NASA and offered by the Interdisciplinary Science Center at HU, this course targets students interested in an asynchronous web-based learning environment. Often these students are working adults, such as those in the HU religious studies program, or undergraduate athletes who need the flexibility of taking their courses online in the evenings. Participants of this course earn three hours of science credit either graduate or undergraduate through their online explorations of the geosphere, hydrosphere, and atmosphere. The incorporation of specific problem-based case studies, allows students to investigate weather phenomena, deforestation, and the various instruments and satellite data systems that are used to collect and analyze this data. This web-based course utilizes the unique capabilities of the web allowing students to work at a self-regulated pace and at times most convenient to their schedules. The course delivers all lectures, text readings, and course assignments online. Assignments are given on a weekly basis, and participants are expected to conduct independent research that will enrich their online experience. The nature of the web allows the students to easily integrate text and graphics into their assignments and have access to their classmate's work. Participants meet online weekly and interact as a team.

Increasing Student Success in Large Survey Science Courses via Supplemental Instruction in Learning Centers

NASA Astrophysics Data System (ADS)

Hooper, Eric Jon; Nossal, S.; Watson, L.; Timbie, P.

2010-05-01

Large introductory astronomy and physics survey courses can be very challenging and stressful. The University of Wisconsin-Madison Physics Learning Center (PLC) reaches about 10 percent of the students in four introductory physics courses, algebra and calculus based versions of both classical mechanics and electromagnetism. Participants include those potentially most vulnerable to experiencing isolation and hence to having difficulty finding study partners as well as students struggling with the course. They receive specially written tutorials, conceptual summaries, and practice problems; exam reviews; and most importantly, membership in small groups of 3 - 8 students which meet twice per week in a hybrid of traditional teaching and tutoring. Almost all students who regularly participate in the PLC earn at least a "C,” with many earning higher grades. The PLC works closely with other campus programs which seek to increase the participation and enhance the success of underrepresented minorities, first generation college students, and students from lower-income circumstances; and it is well received by students, departmental faculty, and University administration. The PLC staff includes physics education specialists and research scientists with a passion for education. However, the bulk of the teaching is conducted by undergraduates who are majoring in physics, astronomy, mathematics, engineering, and secondary science teaching (many have multiple majors). The staff train these enthusiastic students, denoted Peer Mentor Tutors (PMTs) in general pedagogy and mentoring strategies, as well as the specifics of teaching the physics covered in the course. The PMTs are among the best undergraduates at the university. While currently there is no UW-Madison learning center for astronomy courses, establishing one is a possible future direction. The introductory astronomy courses cater to non-science majors and consequently are less quantitative. However, the basic structure of small groups focusing on fundamental understanding taught mostly by dedicated undergraduates should transfer well.

A Call to Develop Course-Based Undergraduate Research Experiences (CUREs) for Nonmajors Courses.

PubMed

Ballen, Cissy J; Blum, Jessamina E; Brownell, Sara; Hebert, Sadie; Hewlett, James; Klein, Joanna R; McDonald, Erik A; Monti, Denise L; Nold, Stephen C; Slemmons, Krista E; Soneral, Paula A G; Cotner, Sehoya

2017-01-01

Course-based undergraduate research experiences (CUREs) for non-science majors (nonmajors) are potentially distinct from CUREs for developing scientists in their goals, learning objectives, and assessment strategies. While national calls to improve science, technology, engineering, and mathematics education have led to an increase in research revealing the positive effects of CUREs for science majors, less work has specifically examined whether nonmajors are impacted in the same way. To address this gap in our understanding, a working group focused on nonmajors CUREs was convened to discuss the following questions: 1) What are our laboratory-learning goals for nonmajors? 2) What are our research priorities to determine best practices for nonmajors CUREs? 3) How can we collaborate to define and disseminate best practices for nonmajors in CUREs? We defined three broad student outcomes of prime importance to the nonmajors CURE: improvement of scientific literacy skills, proscience attitudes, and evidence-based decision making. We evaluated the state of knowledge of best practices for nonmajors, and identified research priorities for the future. The report that follows is a summary of the conclusions and future directions from our discussion. © 2017 C. J. Ballen 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).

The effects of higher-order questioning strategies on nonscience majors' achievement in an introductory environmental science course and their attitudes toward the environment

NASA Astrophysics Data System (ADS)

Eason, Grace Teresa

The purpose of this quasi-experimental study was to determine the effect a higher-order questioning strategy (Bloom, 1956) had on undergraduate non-science majors' attitudes toward the environment and their achievement in an introductory environmental science course, EDS 1032, "Survey of Science 2: Life Science," which was offered during the Spring 2000 term. Students from both treatment and control groups (N = 63), which were determined using intact classes, participated in eight cooperative group activities based on the Biological Sciences Curriculum Studies (BSCS) 5E model (Bybee, 1993). The treatment group received a higher-order questioning method combined with the BSCS 5E model. The control group received a lower-order questioning method, combined with the BSCS 5E model. Two instruments were used to measure students' attitude and achievement changes. The Ecology Issue Attitude (EIA) survey (Schindler, 1995) and a comprehensive environmental science final exam. Kolb's Learning Style Inventory (KLSI, 1985) was used to measure students' learning style type. After a 15-week treatment period, results were analyzed using MANCOVA. The overall MANCOVA model used to test the statistical difference between the collective influences of the independent variables on the three dependent variables simultaneously was found to be not significant at alpha = .05. This differs from findings of previous studies in which higher-order questioning techniques had a significant effect on student achievement (King 1989 & 1992; Blosser, 1991; Redfield and Rousseau, 1981; Gall 1970). At the risk of inflated Type I and Type II error rates, separate univariate analyses were performed. However, none of the research factors, when examined collectively or separately, made any significant contribution to explaining the variability in EIA attitude, EIA achievement, and comprehensive environmental science final examination scores. Nevertheless, anecdotal evidence from student's self-reported behavior changes indicated favorable responses to an increased awareness of and positive action toward the environment.

Using News Media Databases (LexisNexis) To Identify Relevant Topics For Introductory Earth Science Classes

NASA Astrophysics Data System (ADS)

Cervato, C.; Jach, J. Y.; Ridky, R.

2003-12-01

Introductory Earth science courses are undergoing pedagogical changes in universities across the country and are focusing more than ever on the non-science majors. Increasing enrollment of non-science majors in these introductory Earth science courses demands a new look at what is being taught and how the content can be objectively chosen. Assessing the content and effectiveness of these courses requires a quantitative investigation of introductory Earth science topics and their relevance to current issues and concerns. Relevance of Earth science topics can be linked to improved students' attitude toward science and a deeper understanding of concepts. We have used the Internet based national news search-engine LexisNexis Academic Universe (http://www.lexisnexis.org/) to select the occurrence of Earth science terms over the last 12 months, five and ten years both regionally and nationally. This database of term occurrences is being used to examine how Earth sciences have evolved in the news through the last 10 years and is also compared with textbook contents and course syllabi from randomly selected introductory earth science courses across the nation. These data constitute the quantitative foundation for this study and are being used to evaluate the relevance of introductory earth science course content. The relevance of introductory course content and current real-world issues to student attitudes is a crucial factor when considering changes in course curricula and pedagogy. We have examined students' conception of the nature of science and attitudes towards science and learning science using a Likert-scale assessment instrument in the fall 2002 Geology 100 classes at Iowa State University. A pre-test and post-test were administered to see if the students' attitudes changed during the semester using as reference a control group comprised of geoscience undergraduate and graduate students, and faculty. The results of the attitude survey have been analyzed in terms of student demographics and socioeconomic variables (e.g., year in school, gender).

Organic Functional Group Playing Card Deck

NASA Astrophysics Data System (ADS)

Welsh, Michael J.

2003-04-01

The recognition and identification of organic functional groups, while essential for chemistry and biology majors, is also very useful for non-science majors in the study of molecules in art and life. In order to make this task more palatable for the non-science major (art and communications students), the images of a traditional playing deck of cards (heart, spade, diamond, and club) have been replaced with four representations of common organic functional groups. The hierarchy rules for naming two groups in a molecule is loosely incorporated to represent the sequence (King, Queen, Jack, ?, Ace) of the deck. Students practice recognizing and identifying organic groups by playing simple card games of "Old Maid" and "Go Fish". To play games like "Poker" or "Gin", a student must not only recognize the functional groups, but also master a naming hierarchy for the organic groups.

Scientific Reasoning Abilities of Nonscience Majors in Physics-Based Courses

ERIC Educational Resources Information Center

Moore, J. Christopher; Rubbo, Louis J.

2012-01-01

We have found that non-STEM (science, technology, engineering, and mathematics) majors taking either a conceptual physics or astronomy course at two regional comprehensive institutions score significantly lower preinstruction on the Lawson's Classroom Test of Scientific Reasoning (LCTSR) in comparison to national average STEM majors. Based on…

Education: Chemistry made Interesting for NonScientists

ERIC Educational Resources Information Center

Chemical and Engineering News, 1972

1972-01-01

The author advocates chemistry courses, for nonscience majors, based on intellectually stimulating questions such as whether the evolution of life from nonliving precursors is a natural phenomenon. (CP)

Undergraduate Research From Start to Finish in a SEA Semester

NASA Astrophysics Data System (ADS)

Lavender, K.; Joyce, P.; Graziano, L.; Harris, S.; Jaroslow, G.; Lea, C.; Schell, J.; Witting, J.

2005-12-01

Undergraduates in the 12-week SEA Semester program at the Sea Education Association (SEA) carry out the entire scientific research process, from conception of a testable scientific question to final presentation of results from data they collect on a six-week research cruise. SEA is uniquely positioned to direct undergraduates in oceanography research projects as diverse as the students that propose them, from the curious non-science major to the student wishing to continue their research at their home institution (i.e. for a senior thesis project). Upon arrival at SEA''s campus in Woods Hole, MA, students are challenged to design a research project they will carry out at sea. They are guided by faculty in reading and discussing primary scientific literature, formulating a research question, and describing a specific data collection and analysis plan to be carried out at sea, culminating in a written research proposal that is defended orally. In developing their project students have access not only to the SEA faculty, but also to the many resources of the larger scientific community of Woods Hole. During the six-week sea component students participate in all aspects of data collection, analysis, and interpretation aboard one of SEA's state-of-the-art oceanographic research vessels. Before the end of the program each student presents their final results in both an oral presentation and a written research paper. The SEA Semester model gives students the opportunity to take complete ownership of a research project, and provides access to cutting-edge research capabilities both onshore and at sea. Examples of recent student research projects will be presented. SEA has been simultaneously developing its undergraduate research program and collecting an extensive historical oceanographic database since 1971. Students are encouraged to incorporate these data in long time series analysis projects, and data are also available to outside researchers. Collaborations with research scientists enhance the educational program, and provide opportunities for ship-of-opportunity sampling in remote locations. There are currently more than 7000 alumni of SEA Semester, and SEA alums are associated with all major centers of oceanographic research in the United States.

Conceptual Chemistry: Understanding Our World of Atoms and Molecules (John Suchocki)

NASA Astrophysics Data System (ADS)

Pienta, Norbert J.

2003-07-01

In summary, this book defines its philosophy and sticks to it. It is well-written and will be understandable to the nonscience major; it has a rational organization and layout. The core follows the principles covered in most general chemistry courses. For the nonscience-major audience, it would be challenging to cover the core and very many of the enrichment chapters, but there is certainly plenty to choose from in both categories. For the prep-chem audience, the relatively small amount of mathematics, few calculations, and implementation may turn off instructors. (But perhaps that is why students in those courses are turned off by the traditional textbooks that are offered for their use.) If you are in the market in this or a related category, give this book a serious look.

Opportunity to learn: Investigating possible predictors for pre-course Test Of Astronomy STandards TOAST scores

NASA Astrophysics Data System (ADS)

Berryhill, Katie J.

As astronomy education researchers become more interested in experimentally testing innovative teaching strategies to enhance learning in introductory astronomy survey courses ("ASTRO 101"), scholars are placing increased attention toward better understanding factors impacting student gain scores on the widely used Test Of Astronomy STandards (TOAST). Usually used in a pre-test and post-test research design, one might naturally assume that the pre-course differences observed between high- and low-scoring college students might be due in large part to their pre-existing motivation, interest, experience in science, and attitudes about astronomy. To explore this notion, 11 non-science majoring undergraduates taking ASTRO 101 at west coast community colleges were interviewed in the first few weeks of the course to better understand students' pre-existing affect toward learning astronomy with an eye toward predicting student success. In answering this question, we hope to contribute to our understanding of the incoming knowledge of students taking undergraduate introductory astronomy classes, but also gain insight into how faculty can best meet those students' needs and assist them in achieving success. Perhaps surprisingly, there was only weak correlation between students' motivation toward learning astronomy and their pre-test scores. Instead, the most fruitful predictor of TOAST pre-test scores was the quantity of pre-existing, informal, self-directed astronomy learning experiences.

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.

Encouraging Student Participation in Large Astronomy Courses

ERIC Educational Resources Information Center

Willoughby, Shannon D.

2012-01-01

Introductory astronomy is one of the most widely taught classes in the country and the majority of the students who take these classes are non-science majors. Because this demographic of students makes up the majority of astronomy enrollments, it is especially important as instructors that we do our best to make sure these students don't finish…

The Alchemist and Early Chemist

ERIC Educational Resources Information Center

Husk, G. Ronald

1972-01-01

Alchemy can be used to establish that chemistry was also an art which later changed to science. Courses in alchemy will not only create more interest in science majors but non-science majors as well. The paintings identified in the article can be procured from commercial firms, and discussion lessons planned. (PS)

Brownfield Action Online - An Interactive Undergraduate Science Course in Environmental Forensics

NASA Astrophysics Data System (ADS)

Liddicoat, Joseph; Bower, Peter

2014-05-01

Brownfield Action (BA) is a web-based, interactive, three dimensional digital space and learning simulation in which students form geotechnical consulting companies and work collectively to explore problems in environmental forensics. Created at Barnard College (BC) in conjunction with the Center for New Media Teaching and Learning at Columbia University, BA has a 12-year history at BC of use in one semester of a two-semester Introduction to Environmental Science course that is taken by more than 100 female undergraduate non-science majors to satisfy their science requirement. The pedagogical methods and design of the BA model are grounded in a substantial research literature focused on the design, use, and effectiveness of games and simulation in education. The successful use of the BA simulation at BC and 14 other institutions in the U.S. is described in Bower et al. (2011 and 2014). Soon to be taught online to non-traditional undergraduate students, BA has 15 modules that include a reconnaissance survey; scale; topographic, bedrock, and water table maps; oral and written reports from residents and the municipal government; porosity and permeability measurements of the regolith (sand) in the area of interest; hydrocarbon chemistry; direction and velocity of groundwater flow; and methods of geophysical exploration (soil gas, ground penetrating radar, magnetic metal detection, excavation, and drilling). Student performance is assessed by weekly exercises and a semester ending Environmental Site Assessment Phase I Report that summarizes the individual and collective discoveries about a contaminated subsurface plume that emanates from a leaking underground storage tank at a gasoline station upgrade from the water well that serves the surrounding community. Texts for the course are Jonathan Harr's A Civil Action and Rachel Carson's Silent Spring, which are accompanied by questions that direct the reading.

Evolutionary Relationships Based on Cellular Structure.

ERIC Educational Resources Information Center

Van Winkle, Lon J.

1979-01-01

This laboratory exercise integrates the topics of cell structure, classification of living organisms, and evolution. It is suitable for secondary or college biology courses and was used in an interdisciplinary science course for nonscience majors. (BB)

College Students' Conceptions of Stem Cells, Stem Cell Research, and Cloning

NASA Astrophysics Data System (ADS)

Concannon, James P.; Siegel, Marcelle A.; Halverson, Kristy; Freyermuth, Sharyn

2010-04-01

In this study, we examined 96 undergraduate non-science majors' conceptions of stem cells, stem cell research, and cloning. This study was performed at a large, Midwest, research extensive university. Participants in the study were asked to answer 23 questions relating to stem cells, stem cell research, and cloning in an on-line assessment before and after instruction. Two goals of the instruction were to: (1) help students construct accurate scientific ideas, and (2) enhance their reasoning about socioscientific issues. The course structure included interactive lectures, case discussions, hands-on activities, and independent projects. Overall, students' understandings of stem cells, stem cell research, and cloning increased from pre-test to post-test. For example, on the post-test, students gained knowledge concerning the age of an organism related to the type of stem cell it possesses. However, we found that some incorrect ideas that were evident on the pre-test persisted after instruction. For example, before and after instruction several students maintained the idea that stem cells can currently be used to produce organs.

Results of Studying Astronomy Students’ Science Literacy, Quantitative Literacy, and Information Literacy

NASA Astrophysics Data System (ADS)

Buxner, Sanlyn; Impey, Chris David; Follette, Katherine B.; Dokter, Erin F.; McCarthy, Don; Vezino, Beau; Formanek, Martin; Romine, James M.; Brock, Laci; Neiberding, Megan; Prather, Edward E.

2017-01-01

Introductory astronomy courses often serve as terminal science courses for non-science majors and present an opportunity to assess non future scientists’ attitudes towards science as well as basic scientific knowledge and scientific analysis skills that may remain unchanged after college. Through a series of studies, we have been able to evaluate students’ basic science knowledge, attitudes towards science, quantitative literacy, and informational literacy. In the Fall of 2015, we conducted a case study of a single class administering all relevant surveys to an undergraduate class of 20 students. We will present our analysis of trends of each of these studies as well as the comparison case study. In general we have found that students basic scientific knowledge has remained stable over the past quarter century. In all of our studies, there is a strong relationship between student attitudes and their science and quantitative knowledge and skills. Additionally, students’ information literacy is strongly connected to their attitudes and basic scientific knowledge. We are currently expanding these studies to include new audiences and will discuss the implications of our findings for instructors.

WorldWide Telescope and Google Sky: New Technologies to Engage Students and the Public

NASA Astrophysics Data System (ADS)

Landsberg, R. H.; Subbarao, M. U.; Dettloff, L.

2010-08-01

New, visually rich, astronomical software environments coupled with large web-accessible data sets hold the promise of new and exciting ways to teach, collaborate, and explore the universe. These freeware tools provide contextual views of astronomical objects, real time access to multi-wavelength sky surveys, and, most importantly, the ability to incorporate new data and to produce user created content. This interactive panel examined the capabilities of Google Sky and WorldWide Telescope, and explored case studies of how these tools have been used to create compelling and participatory educational experiences in both formal (i.e., K-12 and undergraduate non-science majors classrooms), and informal (e.g., museum) settings. The overall goal of this session was to stimulate a discussion about future uses of these technologies. Substantial time was allotted for participants to create conceptual designs of learning experiences for use at their home institutions, with feedback provided by the panel members. Activities included technical discussions (e.g., mechanisms for incorporating new data and dissemination tools), exercises in narrative preparation, and a brainstorming session to identify potential future uses of these technologies.

An Online Astronomy Course VS. A Interactive Classroom

NASA Astrophysics Data System (ADS)

Slater, Timothy F.; Bailey, Janelle M.; Jaeggli, Sarah A.; Jones, Lauren V.; Lee, Ariane C.

Contemporary science education reforms emphasize building instruction around students’ pre-instructional beliefs fostering a learning environment where students interact with information and phenomena and providing students with frequent feedback to help them monitor their own learning. Recently personal computers and the Internet have given students access to scientific data sets and visualization tools that only professional scientists could use a few years before. With these things in mind we designed a hypermedia learning experience for introductory astronomy (Astronomy Online) that matches Internet technology with how people learn. Astronomy Online was used as the sole delivery system for courses offered during the Fall 2002 semester. The courses are run online. In one manifestation the course was delivered to middle and secondary school teachers spread across the globe. In another version the course was delivered to college undergraduate non-science majors where the only class meetings were a single orientation session and three on-campus exams. We compare these with on-campus courses that use highly interactive teaching techniques by studying common examination questions the Astronomy Diagnostic Test an attitude survey and interviews with students

Respiration and Photosynthesis: A Teaching Module. Occasional Paper No. 90.

ERIC Educational Resources Information Center

Bishop, Beth A.; And Others

Designed to address the major conceptual problems associated with respiration and photosynthesis, this module can be used with high school students or college nonscience majors including those in elementary education. It is one in a series developed by the project Overcoming Critical Barriers to Learning in Nonmajors' Science Courses. The…

The Development and Validation of a Behaviorally Defined Interest Instrument for Science.

ERIC Educational Resources Information Center

Butzow, John W., Jr.

A semantic differential (SD) instrument, modified by replacing words or noun phrases with phrases describing a behavior, was administered to male freshmen students. Six items discriminated between two groups, 97 science majors and 161 non-science majors, on three axes, labelled as evaluation, potency, and activity. To test whether the instrument…

The Relationship between Biology Classes and Biological Reasoning and Common Heath Misconceptions

ERIC Educational Resources Information Center

Keselman, Alla; Hundal, Savreen; Chentsova-Dutton, Yulia; Bibi, Raquel; Edelman, Jay A.

2015-01-01

This study investigates the relationship among (1) college major, (2) knowledge used in reasoning about common health beliefs, and (3) judgment about the accuracy of those beliefs. Seventy-four college students, advanced biology and non-science majors, indicated their agreement or disagreement with commonly believed, but often inaccurate,…

Rule-Governed Approaches to Physics: Conservation of Mechanical Energy.

ERIC Educational Resources Information Center

Maloney, David P.

1985-01-01

Investigated methods science and nonscience majors use to make predictions about five situations involving the conservation of mechanical energy. Two findings, among others, show that subjects did not employ identifiable strategies in over 97 percent of the cases and show differences in the way majors and nonmajors worked the problems given.…

Fundamental Quantum Mechanics--A Graphic Presentation

ERIC Educational Resources Information Center

Wise, M. N.; Kelley, T. G.

1977-01-01

Describes a presentation of basic quantum mechanics for nonscience majors that relies on a computer-generated graphic display to circumvent the usual mathematical difficulties. It allows a detailed treatment of free-particle motion in a wave picture. (MLH)

"Seven Ideas" and "Entertainment and the Arts": Two Courses for the Non-Science Major

ERIC Educational Resources Information Center

Spielberg, N.; Christensen, S. H.

1977-01-01

Discusses the course content and teaching techniques of two one-quarter descriptive physics courses which have been particularly successful. Reports on large enrollments and positive reception by students and faculty. (MLH)

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.

Evaluating Astronomy Laboratories

NASA Astrophysics Data System (ADS)

Zirbel, E. L.

2002-12-01

A set of non-traditional astronomy laboratories for non-science majors will be presented along with evaluations of lab technicians (these labs were originally developed at the College of Staten Island of the City University of New York). The goal of these labs is twofold: (a) to provide the students with hands-on experiences of scientific methodology and (b) to provoke critical thinking. Because non-science majors are often rather resistant to learning the relevant methodology - and especially to thinking critically - this manual is structured differently. It does not only provide traditional cook-book recipes but also contains several leading questions to make the students realize why they are doing what. The students are encouraged to write full sentences and explain how they reach which conclusions. This poster summarizes the experiences of the laboratory assistants that worked with the instructor and presents how they judge the effectiveness of the laboratories.

An analysis of factors that lead to better learning in an integrated and interdisciplinary course on climate change

NASA Astrophysics Data System (ADS)

Reed, D. E.; Lyford, M.; Schmidt, L. O.; Bowles-Terry, M.

2012-12-01

Climate change education presents many challenges to college educators due to the interdisciplinary nature of the issue as well as the social and political context and implications. This presents multiple barriers to learning for the student, both because it is difficult to address all scientific components in one course, and because many students have strong preconceived feelings or beliefs about climate change. A further barrier to learning for non-science majors is that very often the number of required science courses is low and a highly complex issue such as climate change is difficult to address in introductory science courses. To attempt to address these issues a course for non-science majors, Life Science 1002, Discovering Science, at the University of Wyoming was created as an interdisciplinary and integrated science course that includes a lecture component as well as weekly lab and discussion sections. Our previous work has shown a clear change in the reference sources used by non-science majors when referring to complex topics; namely, students increase their use of scientific journals when they are shown how to use scientific journals and students also report a correlated decrease in non-peer reviewed sources (ie, radio, newspapers, TV). We seek to expand on this work by using pre- and post-topic student surveys in the course at the University of Wyoming to directly measure student performance in different components of the course. The course has enrollment between 120 and 130 students, with nearly equal distribution between grade levels and a wide sampling of non-science majors or undeclared majors. For this work we will use a non-quantitative survey of students to find out which part of the course (lecture, lab or discussion) is most effective for student learning. Further, quantitative analysis of which factors of the student body (class standing, major, gender, background and personal beliefs) will be correlated to help predict who achieved the best and we will apply a non-quantitative analysis to determine which section of the student body had difficulties and why. This work will show other higher education instructors both the methodology and results from this study of the interdisciplinary course on climate change. While this work is limited in only focusing on one introductory course, the large number of students and the diversity of those students allow for a study of which factors in the course are best for student learning.

ASTRO 101 Labs and the Invasion of the Cognitive Scientists

NASA Astrophysics Data System (ADS)

Slater, Stephanie J.

2015-04-01

Since the mid 1800's there has been widespread agreement that we should be about the business of engaging students in the practices of scientific research in order to best teach the methods and practices of science. There has been significantly less agreement on precisely how to teach science by mimicking scientific inquiry in a way that can be empirically supported, even with our ``top students.'' Engaging ``ASTRO 101 students'' in scientific inquiry is a task that has left our astronomy education research community more than a little stymied, to the extent that it is difficult to find non-major science students practicing anything other than confirmation exercises in college labs. Researchers at the CAPER Center for Astronomy & Physics Education Research have struggled with this problem as well, until in our frustration we had to ask: ``Can research tell us anything about how to get students to do research?'' This talk presents an overview of the cognitive science that we've brought to bear in the ASTRO 101 laboratory setting for non-science majoring undergraduates and future teachers, along with the results of early studies that suggest that a ``backwards faded scaffolding'' approach to instruction in Intro Labs can successfully support large numbers of students in enhancing their understanding of the nature of scientific inquiry. Supported by NSF DUE 1312562.

Qualitative Analysis of Collaborative Learning Groups in Large Enrollment Introductory Astronomy

NASA Astrophysics Data System (ADS)

Skala, Chija; Slater, Timothy F.; Adams, Jeffrey P.

2000-08-01

Large-lecture introductory astronomy courses for undergraduate, non-science majors present numerous problems for faculty. As part of a systematic effort to improve the course learning environment, a series of small-group, collaborative learning activities were implemented in an otherwise conventional lecture astronomy survey course. These activities were used once each week during the regularly scheduled lecture period. After eight weeks, ten focus group interviews were conducted to qualitatively assess the impact and dynamics of these small group learning activities. Overall, the data strongly suggest that students enjoy participating in the in-class learning activities in learning teams of three to four students. These students firmly believe that they are learning more than they would from lectures alone. Inductive analysis of the transcripts revealed five major themes prevalent among the students' perspectives: (1) self-formed, cooperative group composition and formation should be more regulated by the instructor; (2) team members' assigned rolls should be less formally structured by the instructors; (3) cooperative groups helped in learning the course content; (4) time constraints on lectures and activities need to be more carefully aligned; and (5) gender issues can exist within the groups. These themes serve as a guide for instructors who are developing instructional interventions for large lecture courses.

Guided inquiry activities for learning about the macro- and micronutrients in introductory nutrition courses.

PubMed

Smith, Andri L; Purcell, Rebecca J; Vaughan, Joel M

2015-01-01

Most students enroll in general education introductory nutrition classes because they want to improve their diets in order to lose weight or enhance athletic performance. These nonscience majors are often less interested in learning about the fundamental biochemical principles underlying nutrition or are surprised that this foundational knowledge of biochemistry is essential for appropriate diet planning. Furthermore, nonscience majors sometimes find traditional, lecture-oriented science classes that encourage competition rather than collaboration to be uninviting and unappealing. For these reasons, we have developed a set of guided inquiry activities about macronutrients (carbohydrates, lipids, and proteins) and micronutrients (vitamins and minerals) for use in introductory nutrition courses for nonscience majors. In our first study (Spring 2012), we divided students into two groups with two different approaches for learning about the macronutrients: (1) a traditional, lecture-based approach and (2) an active learning approach with guided inquiry activities. We showed through the use of embedded common exam questions that students mastered concepts related to the macronutrients equally well using either approach. Due to positive student and faculty feedback from the first study, we decided to have all students use the guided inquiry approach in a subsequent study the following year (Spring 2013). In our second study we used pre/post survey data to evaluate both students' concept mastery and confidence in answering questions about the macro- and micronutrients. We found that (1) students showed gains in both concept mastery and confidence and (2) as students' confidence increased, post-test concept scores also increased. © 2015 The International Union of Biochemistry and Molecular Biology.

Characterization of Human Genetics Courses for Nonbiology Majors in U.S. Colleges and Universities

ERIC Educational Resources Information Center

Bowling, Bethany Vice; Huether, Carl A.; Wagner, Jennifer A.

2007-01-01

We characterized college human genetics courses for nonscience majors (NSM) by 1) determining the number of U.S. institutions offering courses and the number of students taking them; and 2) surveying course instructors on course demographics, content, materials, and pedagogies. Between 2002 and 2004, an estimated 480 institutions of higher…

"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…

Connecting Students and Policymakers through Science and Service-Learning

NASA Astrophysics Data System (ADS)

Szymanski, D. W.

2017-12-01

Successful collaborations in community science require the participation of non-scientists as advocates for the use of science in addressing complex problems. This is especially true, but particularly difficult, with respect to the wicked problems of sustainability. The complicated, unsolvable, and inherently political nature of challenges like climate change can provoke cynicism and apathy about the use of science. While science education is a critical part of preparing all students to address wicked problems, it is not sufficient. Non-scientists must also learn how to advocate for the role of science in policy solutions. Fortunately, the transdisciplinary nature of sustainability provides a venue for engaging all undergraduates in community science, regardless of major. I describe a model for involving non-science majors in a form of service-learning, where the pursuit of community science becomes a powerful pedagogical tool for civic engagement. Bentley University is one of the few stand-alone business schools in the United States and provides an ideal venue to test this model, given that 95% of Bentley's 4000 undergraduates major in a business discipline. The technology-focused business program is combined with an integrated arts & sciences curriculum and experiential learning opportunities though the nationally recognized Bentley Service-Learning and Civic Engagement Center. In addition to a required general education core that includes the natural sciences, students may opt to complete a second major in liberal studies with thematic concentrations like Earth, Environment, and Global Sustainability. In the course Science in Environmental Policy, students may apply to complete a service-learning project for an additional course credit. The smaller group of students then act as consultants, conducting research for a non-profit organization in the Washington, D.C. area involved in geoscience policy. At the end of the semester, students travel to D.C. and present their findings to the non-profit partner and make policy recommendations to legislators in Capitol Hill visits. The projects have been highly impactful as a form of community science, creating passionate science advocacy among non-majors, improving collaborations with community partners, and spurring action by federal policymakers.

Climate and History-An Alternative Science Distribution Course

ERIC Educational Resources Information Center

Moran, Joseph M.

1976-01-01

Describes an introductory college science course for nonscience majors concentrating on climatology and meteorology. Student apathy and discontent with science is overcome through a historically relevant presentation of the subjects. Results indicate a significant stimulation of student interest in science. (SL)

A Non-Traditional Science Laboratory for the Nonscience Major.

ERIC Educational Resources Information Center

Labianca, Dominick A.

1980-01-01

Proposes an interdisciplinary curriculum focusing on chemistry with a central theme of pollution--of the human body and its surroundings. Appropriate readings, films and music, art and photographs are suggested for the topics of environmental pollution, pharmacology, and toxicology. (CS)

Light, Color, and Photography: A Course for Artists and Others

ERIC Educational Resources Information Center

Lietz, Gerard P.

1973-01-01

Outlines an optics course, designed for science and nonscience majors, which emphasizes phenomena rather than mathematics. Indicates that the new curriculum permits liberal arts students to learn physics as well as the relationship of physics to society. (CC)

How College-Level Introductory Instruction Can Impact Student Epistemological Beliefs

ERIC Educational Resources Information Center

Ding, Lin; Mollohan, Katherine N.

2015-01-01

This article describes a survey study of college students' epistemologies about biology and learning biology. Specifically, the authors examined the differences between science and nonscience majors and their changes in epistemologies over the course of a semester of instruction.

Bringing Students out of the Classroom and into Research Projects: An Undergraduate Team Research (UTR) Program at the University of Southern California

NASA Astrophysics Data System (ADS)

Cox, I. V.; Quirk, M.; Culbert, K. N.; Whitesides, A. S.; Sun, H.; Black, C. J.; Cao, W.; Zhang, T.; Paterson, S. R.; Memeti, V.; Anderson, J. L.

2010-12-01

In 2006, USC Earth Sciences professors Paterson and Anderson created the Undergraduate Team Research (UTR) program, a year-long, multidisciplinary, learner-centered, student research experience. This program is open to all USC undergraduate students, but has also involved a few outstanding undergraduate students from other universities. Since its inception the 47 participants have been a diverse group: 53% women, ~17% minorities, and 43% non-Earth Science majors. To date, 15 abstracts written by UTR participants have been presented at national GSA and AGU meetings and several research papers for publication are in preparation. 12 presentations have been produced at University-sponsored research symposia and culminated in a number of senior theses. The central component of this program is a field-based research experience which involves several weeks of geologic mapping in various locations around the world. During the summer expedition, participants organize themselves into 3-4 person mapping teams consisting of a mix of undergraduate geology majors, non-majors, and mentors (professors and graduate students). At the end of each day, student researchers (with limited mentoring) work together to draft a geologic map while discussing their findings, formulating hypotheses about possible geologic histories, and planning research goals and organizing mapping teams for the next day. Throughout the following academic year, the student researchers continue to work in teams to digitize their geologic map, decide which analyses need to be done, and prepare collected rock samples for various structural, geochemical, and geochronologic studies. Most student researchers agree that they learned more in a few weeks than they often did in an entire semester course. What aspects of the UTR program elicit these high-yield results, even for non-majors that can be applied to other learning environments? We speculate that three critical elements are important: (1) The most notable is the collaborative nature, both in regards to the research itself and meeting the daily demands of living in the backcountry or a foreign country while working together as a research group. Students divided tasks amongst themselves while instructing and helping each other. Students with more geology expertise were able to reinforce their own knowledge by assisting in the teaching process that led to more rapid learning for the newcomers. (2) Student researchers developed a greater feeling of ownership in the program, which led to a greater commitment to learning and to sharing a broad range of ideas about both science and non-science activities. (3) Researchers are rewarded not only through grades, but through the excitement of daily new scientific discoveries, the joint publications of their research, and recognition by their peers. It is intriguing to speculate on what would happen if classrooms and particularly labs were designed to function as collaborative, student- run exercises with the ultimate goal to not only learn a subject, but also produce research papers on the class material.

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.

An Appropriate Culminating Mathematics Course.

ERIC Educational Resources Information Center

Haver, Bill; Turbeville, Gwen

1995-01-01

Describes a freshman level mathematics course designed as an alternate to algebra for non-science majors. Mathematical content is based on real-world situations, student activities include small and large projects done in groups or individually, and lecture time is held to a minimum. (MKR)

Resource Letter EMAA-1: Educational Materials in Astronomy and Astrophysics

ERIC Educational Resources Information Center

Berendzen, Richard; DeVorkin, David

1973-01-01

Presents a list of selected articles on astronomy instruction at high school, college, and graduate levels, especially those for college nonscience majors. Besides teaching materials and aids, related societies, organizations, planetariums, and periodicals are incorporated as entries of primary sources. (CC)

Anesthesia: A Topic for Interdisciplinary Study.

ERIC Educational Resources Information Center

Labianca, Dominick A.; Reeves, William J.

1977-01-01

Describes an interdisciplinary approach for teaching the topic of anesthesia as one aspect of a chemistry-oriented course for nonscience majors which focuses on timely topics such as the energy crisis and drugs. Historical treatment with the examination of literature is emphasized in teaching. (HM)

The Energy Crisis: A New Chemistry Course for Nonscience Majors

ERIC Educational Resources Information Center

Piraino, Marie J.

1974-01-01

Describes a course structured around nuclear energy, fossil fuel energy, food energy, and the population explosion. The course uses classroom discussion and laboratory sessions to stress basic chemical principles and relevance to the student. A topical outline is included. (GS)

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…

Laboratory Development and Lecture Renovation for a Science of Food and Cooking Course

ERIC Educational Resources Information Center

Miles, Deon T.; Borchardt, Adrienne C.

2014-01-01

Several years ago, a new nonscience majors course, The Science of Food and Cooking, was developed at our institution. The course covered basic scientific concepts that would normally be discussed in a typical introductory chemistry course, in the context of food and food preparation. Recently, the course has been revamped in three major ways: (1)…

Research and Teaching: Factors Related to College Students' Understanding of the Nature of Science--Comparison of Science Majors and Nonscience Majors

ERIC Educational Resources Information Center

Partin, Matthew L.; Underwood, Eileen M.; Worch, Eric A.

2013-01-01

To develop a more scientifically literate society, students need to understand the nature of science, which may be affected by controversial topics such as evolution. There are conflicting views among researchers concerning the relationships between understanding evolution, acceptance of evolution, and understanding of the nature of science. Four…

Frustration, Failure, and a "Meaningful" Lab Experience for Adult Nonscience Majors

ERIC Educational Resources Information Center

Fryshman, Bernard

1974-01-01

Describes an open-ended research approach used in an attempt to develop an appreciation of experimental science. The research project involved such topics as "properties of lead,""reasons for lead additives in gasoline," and "the effect of lead on health." (GS)

Brewing Science

ERIC Educational Resources Information Center

Pelter, Michael

2006-01-01

Following the brewing process from grain to glass, this course uses the biological and chemical principles of brewing to teach science to the nonscience major. Discussion of the scientific aspects of malting, mashing, fermentation, and the making of different beer styles is complemented by laboratory exercises that use scientific methods to…

Turkish University Students' Knowledge of Biotechnology and Attitudes toward Biotechnological Applications

ERIC Educational Resources Information Center

Öztürk-Akar, Ebru

2017-01-01

This study questions the presumed relation between formal schooling and scientific literacy about biotechnologies. Comparing science and nonscience majors' knowledge of and attitudes toward biotechnological applications, conclusions are drawn if their formal learnings improve pupils' understandings of and attitudes toward biotechnology…

Construction and evaluation of an online microbiology course for nonscience majors.

PubMed

Hughes, Lee

2008-01-01

The development of web-based technologies provides a new method for course delivery. As with any new technique, evaluation is a necessary tool to determine if the method is consistent with expectations. This study describes the conversion of a nonscience majors' microbiology lecture course to online delivery and evaluates the hypothesis that the online course can be as effective as the traditional course. Course examination scores are compared between the face-to-face and online sections over a 3-year period. On all but one of the course examinations, no significant difference is found for those students in these two distinctly different course types. The success rate, as defined by those students earning grades of C or better, is high for both course types, although the traditional course success rate is slightly higher. Student evaluations of the courses are also positive, though some differences are noted. Overall, student performance in the online course is equivalent to that in the traditional course.

Learning Science Through Visualization

NASA Technical Reports Server (NTRS)

Chaudhury, S. Raj

2005-01-01

In the context of an introductory physical science course for non-science majors, I have been trying to understand how scientific visualizations of natural phenomena can constructively impact student learning. I have also necessarily been concerned with the instructional and assessment approaches that need to be considered when focusing on learning science through visually rich information sources. The overall project can be broken down into three distinct segments : (i) comparing students' abilities to demonstrate proportional reasoning competency on visual and verbal tasks (ii) decoding and deconstructing visualizations of an object falling under gravity (iii) the role of directed instruction to elicit alternate, valid scientific visualizations of the structure of the solar system. Evidence of student learning was collected in multiple forms for this project - quantitative analysis of student performance on written, graded assessments (tests and quizzes); qualitative analysis of videos of student 'think aloud' sessions. The results indicate that there are significant barriers for non-science majors to succeed in mastering the content of science courses, but with informed approaches to instruction and assessment, these barriers can be overcome.

A threshold model of content knowledge transfer for socioscientific argumentation

NASA Astrophysics Data System (ADS)

Sadler, Troy D.; Fowler, Samantha R.

2006-11-01

This study explores how individuals make use of scientific content knowledge for socioscientific argumentation. More specifically, this mixed-methods study investigates how learners apply genetics content knowledge as they justify claims relative to genetic engineering. Interviews are conducted with 45 participants, representing three distinct groups: high school students with variable genetics knowledge, college nonscience majors with little genetics knowledge, and college science majors with advanced genetics knowledge. During the interviews, participants advance positions concerning three scenarios dealing with gene therapy and cloning. Arguments are assessed in terms of the number of justifications offered as well as justification quality, based on a five-point rubric. Multivariate analysis of variance results indicate that college science majors outperformed the other groups in terms of justification quality and frequency. Argumentation does not differ among nonscience majors or high school students. Follow-up qualitative analyses of interview responses suggest that all three groups tend to focus on similar, sociomoral themes as they negotiate socially complex, genetic engineering issues, but that the science majors frequently reference specific science content knowledge in the justification of their claims. Results support the Threshold Model of Content Knowledge Transfer, which proposes two knowledge thresholds around which argumentation quality can reasonably be expected to increase. Research and educational implications of these findings are discussed.

Exploring the consequences of combining medical students with and without a background in biomedical sciences.

PubMed

Ellaway, Rachel H; Bates, Amanda; Girard, Suzanne; Buitenhuis, Deanna; Lee, Kyle; Warton, Aidan; Russell, Steve; Caines, Jill; Traficante, Eric; Graves, Lisa

2014-07-01

Medical schools have tended to admit students with strong backgrounds in the biomedical sciences. Previous studies have shown that those with backgrounds in the social sciences can be as successful in medical school as those with science backgrounds. However, the experience of being a 'non-science' student over time has not been well described. A mixed-methods study was developed and run with the aim of elucidating the personal experiences of science and non-science students at our institution. Data were generated from a student survey that focused on participants' self-identification as science or non-science students, and on their sense of preparedness and stress, and from a series of student focus groups exploring participants' experiences of science and non-science issues in all aspects of their training. Descriptive statistics were generated for structured survey data. Focus group data and unstructured survey data were analysed to identify common themes. End-of-module and end-of-year examination data for the four class cohorts in the programme were also analysed to compare science and non-science student performance over time. There were clear differences between the experiences and performance of science and non-science students. We found dichotomies in students' self-reported sense of preparedness and stress levels, and marked differences in their examination performance, which diminished over time to converge around the third year of their studies. Combining science and non-science students in the same class affected the students to different extents and in different ways. The potential disruption of mixing science and non-science students diminished as their levels of performance converged. The psychosocial stress experienced by non-science students and the challenges it posed, in both their academic and their personal lives, have implications for how such students should be supported, and how curricula can be configured to afford quality learning for all medical students. © 2014 John Wiley & Sons Ltd.

The Art of Astronomy: A New General Education Course for Non-Science Majors

NASA Astrophysics Data System (ADS)

Pilachowski, Catherine A.; van Zee, Liese

2017-01-01

The Art of Astronomy is a new general education course developed at Indiana University. The topic appeals to a broad range of undergraduates and the course gives students the tools to understand and appreciate astronomical images in a new way. The course explores the science of imaging the universe and the technology that makes the images possible. Topics include the night sky, telescopes and cameras, light and color, and the science behind the images. Coloring the Universe: An Insider's Look at Making Spectacular Images of Space" by T. A. Rector, K. Arcand, and M. Watzke serves as the basic text for the course, supplemented by readings from the web. Through the course, students participate in exploration activities designed to help them first to understand astronomy images, and then to create them. Learning goals include an understanding of scientific inquiry, an understanding of the basics of imaging science as applied in astronomy, a knowledge of the electromagnetic spectrum and how observations at different wavelengths inform us about different environments in the universe, and an ability to interpret astronomical images to learn about the universe and to model and understand the physical world.

A General Education Course in Cultural Astronomy: Exploring the Universe Through Human Eyes

NASA Astrophysics Data System (ADS)

Larsen, Kristine

2017-01-01

Astronomy courses for non-science majors (often referred to as Astro 101) are the bread and butter of the general education service obligation of astronomy faculty and programs across the US. Their content has traditionally been a general survey of the solar system, stars and galaxies, or even the entire universe. However, because the audience is students who will not be continuing on in astronomy, there is actually no need to cover a broad range of specific topics. Rather, it is more important to concentrate on the scientific process, and hopefully leave the student with an understanding of the relevance of science in everyday life, regardless of his or her major. As a result, some faculty prefer a more interdisciplinary focus for their Astro 101 classes, for example courses on the search for extraterrestrial life. Another option for general education astronomy courses is what has become known as cultural astronomy. Cultural astronomy focuses on the ways in which astronomical knowledge and belief influences human behavior and social structures. Under this umbrella fall two important areas of study, archaeoastronomy (concentrating on ancient cultures) and enthoastronomy (focusing on extant cultures). Such interdisciplinary courses draw heavily upon archaeology, history, anthropology, art, and other fields more traditionally aligned with the humanities and social sciences than the natural sciences, and therefore can be attractive to students in these non-science majors. In such courses, students experience the “humanity” of science: the important connections between science and the human experience, and how experts in myriad fields contribute in meaningful ways to our understanding of how astronomical knowledge has been constructed and disseminated across time and space. This poster describes the content and pedagogy of a general education course in cultural astronomy for non-science majors that stresses hands-on and experiential learning, including the use of planispheres, sundials, simple sextants, astrolabes and the planetarium, as well as the integration of mathematics, myth, and creative writing.

Putting Students on the Hot Seat to Stimulate Interest in Biology in Non-Science Majors

ERIC Educational Resources Information Center

Fowler, Samantha R.

2012-01-01

The Hot Seat is a discussion-based activity that requires students enrolled in a biology course for non-majors to pose a question to the class that is related to the current lecture topic and facilitate a brief class discussion. This paper describes the Hot Seat, how it is assessed, and how it has influenced students' attitudes toward the course…

An evaluation of community college student perceptions of the science laboratory and attitudes towards science in an introductory biology course

NASA Astrophysics Data System (ADS)

Robinson, Nakia Rae

The science laboratory is an integral component of science education. However, the academic value of student participation in the laboratory is not clearly understood. One way to discern student perceptions of the science laboratory is by exploring their views of the classroom environment. The classroom environment is one determinant that can directly influence student learning and affective outcomes. Therefore, this study sought to examine community college students' perceptions of the laboratory classroom environment and their attitudes toward science. Quantitative methods using two survey instruments, the Science Laboratory Environment Instrument (SLEI) and the Test of Science Related Attitudes (TORSA) were administered to measure laboratory perceptions and attitudes, respectively. A determination of differences among males and females as well as three academic streams were examined. Findings indicated that overall community college students had positive views of the laboratory environment regardless of gender of academic major. However, the results indicated that the opportunity to pursue open-ended activities in the laboratory was not prevalent. Additionally, females viewed the laboratory material environment more favorably than their male classmates did. Students' attitudes toward science ranged from favorable to undecided and no significant gender differences were present. However, there were significantly statistical differences between the attitudes of nonscience majors compared to both allied health and STEM majors. Nonscience majors had less positive attitudes toward scientific inquiry, adoption of scientific attitudes, and enjoyment of science lessons. Results also indicated that collectively, students' experiences in the laboratory were positive predicators of their attitudes toward science. However, no laboratory environment scale was a significant independent predictor of student attitudes. .A students' academic streams was the only significant independent predictor of attitudes toward science, albeit negatively. The results from this study indicated that there is a need to increase the opportunity for inquiry in the science laboratory. The data also suggest that although all academic streams may have similar views of the laboratory experiences, more needs to be implemented to improve the scientific attitudes of nonscience majors enrolled in a course for science majors.

A 20-Year Survey of Scientific Literacy and Attitudes Toward Science_An Overview

NASA Astrophysics Data System (ADS)

Impey, Chris David; Antonellis, J.; Johnson, E.; King, C.; CATS

2009-01-01

This poster presents the results of a long-term investigation into the science literacy and attitudes toward science of University of Arizona non-science major undergraduates. The survey instrument utilized in this study was derived from measures of adults’ science literacy, as defined and assessed by the National Science Foundation in its biannual Science and Engineering Indicators reports to the National Science Board. In addition, the survey instrument measures attitudes toward science and technology and toward pseudoscience. Quantitative data from over 9000 questionnaires have been into a database, and qualitative data from four open-ended questions has been coded thematically (see Antonellis et al., this meeting). The data will be used to address a number of research questions in the area of science education and science policy, including (1) how the level of science literacy of undergraduates compares to the adult population; (2) how science literacy and attitudes towards science have changed since 1987; (3) the relationship between science knowledge and attitudes towards science; and (4) the extent to which General Education science requirements at a large State university affect science knowledge and attitudes. The data will also be used to critically examine the concept of science literacy. The results of this study are being used by CATS to develop a survey instrument designed specifically for use with Astro 101 students to diagnose the effect our instruction has on their scientific attitudes and beliefs. We acknowledge the NSF for funding under Award No. 0715517, a CCLI Phase III Grant for the Collaboration of Astronomy Teaching Scholars (CATS).

Ecology: A Teaching Module. Occasional Paper No. 94.

ERIC Educational Resources Information Center

Brehm, Shirley; And Others

Designed to address conceptual problems associated with ecology, this module can be used with high school students or college nonscience majors including those in elementary education. The materials offer guidance to teachers in diagnosing student deficiencies, in creating dissatisfaction with misconceptions, and in providing opportunities for…

Stream Management: A Rebirth

ERIC Educational Resources Information Center

Coler, Robert A.; Zatryka, Simon A.

1974-01-01

This article describes a stream management course designed to give non-science majors an in-depth study of water quality. The course includes work in determining and measuring water quality parameters and the discussion of management techniques. Construction of a Hewitt Ramp and wing deflectors are illustrated in the article. (MA)

Relevancy in Basic Courses: Considering Toxic Chemical Disposal.

ERIC Educational Resources Information Center

Sollimo, Vincent J.

1985-01-01

A 2-week unit on toxic chemical waste disposal is used in a physical science course for nonscience majors. Descriptions of the unit, supplementary student activities, and student library project are provided. Also provided are selected student responses to a five-question survey on the unit. (JN)

Characterization of Human Genetics Courses for Nonbiology Majors in U.S. Colleges and Universities

PubMed Central

Huether, Carl A.; Wagner, Jennifer A.

2007-01-01

We characterized college human genetics courses for nonscience majors (NSM) by 1) determining the number of U.S. institutions offering courses and the number of students taking them; and 2) surveying course instructors on course demographics, content, materials, and pedagogies. Between 2002 and 2004, an estimated 480 institutions of higher education (15.2%) offered a course: 8.4% of 1667 associate colleges, 16.1% of baccalaureate institutions, 25.3% of master's institutions, and 32.9% of doctoral institutions. This indicates a need to increase access to genetics education in 2-yr colleges. Based on instructor responses, approximately 32,000–37,000 students annually complete an NSM human genetics course out of approximately 1.9 million students earning a college degree each year (2.0%). Regarding course content, instructors consistently rated many concepts significantly higher in importance than the emphasis placed on those concepts in their courses. Although time could be a factor, instructors need guidance in the integration of the various concepts into their courses. Considering only 30.2% of the instructors were reportedly trained in genetics (another 25.4% in molecular and cellular biology) and the small fraction of students completing NSM human genetics courses, these results demonstrate the need for increasing the availability of these courses in undergraduate institutions of higher education, and particularly at 2-yr colleges. PMID:17785405

How scientific experiments are designed: Problem solving in a knowledge-rich, error-rich environment

NASA Astrophysics Data System (ADS)

Baker, Lisa M.

While theory formation and the relation between theory and data has been investigated in many studies of scientific reasoning, researchers have focused less attention on reasoning about experimental design, even though the experimental design process makes up a large part of real-world scientists' reasoning. The goal of this thesis was to provide a cognitive account of the scientific experimental design process by analyzing experimental design as problem-solving behavior (Newell & Simon, 1972). Three specific issues were addressed: the effect of potential error on experimental design strategies, the role of prior knowledge in experimental design, and the effect of characteristics of the space of alternate hypotheses on alternate hypothesis testing. A two-pronged in vivo/in vitro research methodology was employed, in which transcripts of real-world scientific laboratory meetings were analyzed as well as undergraduate science and non-science majors' design of biology experiments in the psychology laboratory. It was found that scientists use a specific strategy to deal with the possibility of error in experimental findings: they include "known" control conditions in their experimental designs both to determine whether error is occurring and to identify sources of error. The known controls strategy had not been reported in earlier studies with science-like tasks, in which participants' responses to error had consisted of replicating experiments and discounting results. With respect to prior knowledge: scientists and undergraduate students drew on several types of knowledge when designing experiments, including theoretical knowledge, domain-specific knowledge of experimental techniques, and domain-general knowledge of experimental design strategies. Finally, undergraduate science students generated and tested alternates to their favored hypotheses when the space of alternate hypotheses was constrained and searchable. This result may help explain findings of confirmation bias in earlier studies using science-like tasks, in which characteristics of the alternate hypothesis space may have made it unfeasible for participants to generate and test alternate hypotheses. In general, scientists and science undergraduates were found to engage in a systematic experimental design process that responded to salient features of the problem environment, including the constant potential for experimental error, availability of alternate hypotheses, and access to both theoretical knowledge and knowledge of experimental techniques.

Teaching Introductory Weather and Climate Using Popular Movies

ERIC Educational Resources Information Center

Yow, Donald M.

2014-01-01

Addressing the need for an introductory atmospheric science course for nonscience majors, a course was developed that provides a general understanding of atmospheric processes by examining how meteorological events are portrayed in movies. The course also uses films to study the causes of, impacts associated with, and potential adaptations to…

Science from the Pond up: Using Measurement to Introduce Inquiry

ERIC Educational Resources Information Center

Demir, Abdulkadir; Schmidt, Frank; Abell, Sandra K.

2010-01-01

The authors engaged nonscience majors enrolled in an integrated science course with a prototype activity designed to change their mindset from cookbook to inquiry science. This article describes the activity, the Warm Little Pond, which helped students develop essential understanding of basic statistics, significant figures, and the idea that…

Mass Spectrometry for the Masses

ERIC Educational Resources Information Center

Persinger, Jared D.; Hoops, Geoffrey, C.; Samide, Michael J.

2004-01-01

A simple, qualitative experiment is developed for implementation, where the gas chromatography-mass spectrometry (GC-MS) plays an important role, into the laboratory curriculum of a chemistry course designed for nonscience majors. This laboratory experiment is well suited for the students as it helps them to determine the validity of their…

Academic Rigor in General Education, Introductory Astronomy Courses for Nonscience Majors

ERIC Educational Resources Information Center

Brogt, Erik; Draeger, John D.

2015-01-01

We discuss a model of academic rigor and apply this to a general education introductory astronomy course. We argue that even without central tenets of professional astronomy-the use of mathematics--the course can still be considered academically rigorous when expectations, goals, assessments, and curriculum are properly aligned.

The Age of Newton: An Intensive Interdisciplinary Course.

ERIC Educational Resources Information Center

Calvert, J.B.; And Others

1981-01-01

Describes interdisciplinary science course for nonscience science majors which is part of the humanities program at the University of Denver. The course consists of a central lecture series, a mathematics and science tutorial, and four workshops on astronomy, mathematics, mechanics, and optics. The structure is also appropriate for a history of…

Teaching Quantitative Reasoning for Nonscience Majors through Carbon Footprint Analysis

ERIC Educational Resources Information Center

Boose, David L.

2014-01-01

Quantitative reasoning is a key intellectual skill, applicable across disciplines and best taught in the context of authentic, relevant problems. Here, I describe and assess a laboratory exercise that has students calculate their "carbon footprint" and evaluate the impacts of various behavior choices on that footprint. Students gather…

Ah-choo! Increased Risk of Pollen Allergies in the Northern Hemisphere

ERIC Educational Resources Information Center

Constible, Juanita; Sandro, Luke

2008-01-01

In this problem-based learning activity designed for nonscience majors, students assume the roles of scientists working for a public relations firm. Teams of students design communication products illustrating links between climate change and pollen allergies. Students develop a variety of process skills critical to scientists, including working…

Influences of Teleological and Lamarckian Thinking on Student Understanding of Natural Selection

ERIC Educational Resources Information Center

Stover, Shawn K.; Mabry, Michelle L.

2007-01-01

Previous research has demonstrated creationist, Lamarckian, and teleological reasoning in high school and college students. These lines of thinking conflict with the Darwinian notion of natural selection, which serves as the primary catalyst for biological evolution. The current study assessed evolutionary conceptions in non-science majors,…

General Chemistry, 1970 Edition.

ERIC Educational Resources Information Center

Dunham, Orson W.; Franke, Douglas C.

This publication is a syllabus for a senior high school chemistry course designed for the average ability, nonscience major. The content of the syllabus is divided into three basic core areas: Area I: Similarities and Dissimilarities of Matter (9 weeks); Area II: Preparation and Separation of Substances (10 weeks); Area III: Structure and…

Modularization--A Road to Relevance?

ERIC Educational Resources Information Center

Palow, William P.

This paper describes a modular program at a community college for instructing non-science majors in college algebra. The two-course sequence is comprised of four modules each and successful completion of a module is required before a student proceeds to the next. Placement, grading policies, and scheduling are all discussed. A formative evaluation…

Mineral Analysis of Whole Grain Total Cereal

ERIC Educational Resources Information Center

Hooker, Paul

2005-01-01

The quantitative analysis of elemental iron in Whole Grain Total Cereal using visible spectroscopy is suitable for a general chemistry course for science or nonscience majors. The more extensive mineral analysis, specifically for the elements iron, calcium and zinc, is suitable for an instrumental or quantitative analysis chemistry course.

Intriguing Freshmen with Materials Science.

ERIC Educational Resources Information Center

Pond, Robert B., Sr.

Described is a course designed for engineering science and natural science freshmen and open to upperclass nonscience majors entitled "Science of Modern Materials" and which has been successfully presented for several years. This paper presents the philosophy behind the course, the teaching methods employed, and the content of the course. The…

Engaging Non-Science Majors in Biology, One Disease at a Time

ERIC Educational Resources Information Center

Garcia, Rebecca; Rahman, Alvina; Klein, Janette Gomos

2015-01-01

We designed a human biology course that interests nonmajors while improving science literacy through student engagement, using a constructivist-inspired, topic-centered approach. This way of learning highlights common diseases that provide a basis to incorporate specific biological concepts. The topic-centered approach triggers interest and…

The Role of the Humanities in the Teaching of Chemistry.

ERIC Educational Resources Information Center

Labianca, Dominick A.

1984-01-01

Describes an interdisciplinary approach designed to use the humanities as a source of material to exemplify chemical principles, stimulate critical thinking along scientific lines, and demonstrate to nonscience majors that chemistry is relevant to their academic experiences. A sample unit on environmental pollution, drugs, and poisons is also…

Toxicology for Nonscience Majors: Using TV.

ERIC Educational Resources Information Center

Labianca, Dominick A.

1991-01-01

A Brooklyn College (New York) science course for nonmajors includes a unit on drugs and poisons using material from television news, investigative reporting, and fictional series. The films make some of the more abstract course material palatable and interesting, and enhances awareness of the hazards and benefits of chemicals. (MSE)

Cultivating the Capacity for Formal Reasoning: Objectives and Procedures in an Introductory Physical Science Course

ERIC Educational Resources Information Center

Arons, A. B.

1976-01-01

Describes special factors and procedures which are utilized in an introductory physical science course for nonscience majors. It is designed to enable students who are at a concrete or transitional stage to attain the formal operational level of development. (Author/SL)

An exploratory study with preliminary results: The development and evaluation of a Genetics Concept Inventory

NASA Astrophysics Data System (ADS)

Hott, Adam M.

Modern science education reform includes the development of standards and recommendations for content as well as the development and evaluation of pedagogy, but demonstrates limited assessment of student knowledge. Student knowledge assessment is an important factor in measuring the scientific literacy of current students. Concept inventories have been developed and used for the past fourteen years to assess non-science major student conceptual understanding of a content area. Inventories have been developed in the fields of physics, astronomy, chemistry and biology. The development and evaluation of a Genetics Concept Inventory (GCI) is presented here. The reliability estimate of 0.62 is supported by a respected panel of genetics educators' revisions, no significant gender bias, and the ability of junior and senior biology majors to outperform the non-science majors. Pretest/Posttest comparisons show a significant increase in five of six genetics content areas as well as a 9% increase on the overall percent score for the instrument. Although the Genetics Concept Inventory presented here needs further modification and testing, it is the first step in the development of a quality assessment tool for genetics content.

"Did You Say 50% of My Grade?"--Teaching Introductory Physics to Non-Science Majors through a Haunted Physics Lab

ERIC Educational Resources Information Center

Donaldson, Nancy

2010-01-01

Several years ago I attended an AAPT Haunted Physics Workshop taught by Dr. Tom Zepf from Creighton University. Dr. Zepf's highly successful Haunted Physics Lab at Creighton was put on every October by his physics majors. I found the concept of exhibiting physics projects in a "fun" way to students, faculty, and the public very exciting, so an…

Supporting Survey Courses with Lecture-Tutorials and Backwards-Faded Scaffolded Inquiry

NASA Astrophysics Data System (ADS)

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

2013-12-01

In the course of learning science, it is generally accepted that successful science learning experiences should result in learners developing a meaningful understanding of the nature of science as inquiry where: (i) students are engaged in questions; (ii) students are designing plans to pursue data; and (iii) students are generating and defending conclusions based on evidence they have collected. Few of these learning targets can be effectively reached through a professor-centered, information download lecture. In response to national reform movements calling for professors to adopt teaching strategies and learning environments where non-science majors and future teachers can actively engage in scientific discourse, scholars with the CAPER Center for Astronomy & Physics Education Research have leveraged NSF DUE funding over the last decade to develop and systematically field-test two separate instructional approaches. The first of these is called Lecture-Tutorials (NSF 99077755 and NSF 9952232) . These are self-contained, classroom-ready, collaborative group activities. The materials are designed specifically to be easily integrated into the lecture course and directly address the needs of busy and heavily-loaded teaching faculty for effective, student-centered, classroom-ready materials that do not require a drastic course revision for implementation. Students are asked to reason about difficult concepts, while working in pairs, and to discuss their ideas openly. The second of these is a series of computer-mediated, inquiry learning experiences for non-science majoring undergraduates based upon an inquiry-oriented teaching approach framed by the notions of backwards faded-scaffolding as an overarching theme for instruction (NSF 1044482). Backwards faded-scaffolding is a strategy where the conventional and rigidly linear scientific method is turned on its head and students are first taught how to create conclusions based on evidence, then how experimental design creates evidence, and only at the end introduces students to - what we believe is the most challenging part of inquiry - inventing scientifically appropriate questions. Dissemination efforts have been supported by NSF 0715517 and evaluation results consistently suggest that both the Lecture-Tutorials and the backwards faded-scaffolding approaches are successfully engaging students in self-directed scientific discourse as measured by the Views on Scientific Inquiry (VOSI) as well as increasing their knowledge of science as measured by various measures.

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 reevaluate current pedagogy, (2) Kirkwood Community College make class material more relevant and place more emphasis on research, (3) Cornell College utilize full professors in the non-major course and incorporate more technology, and (4) all reevaluate the science GERs course pedagogy, retain the science GERs, maintain the current number of GER science course choices, and, finally, reevaluate any GER science course credit reciprocity.

Investigating Undergraduate Students’ Conceptions of Radiation

NASA Astrophysics Data System (ADS)

Romine, James M.; Buxner, Sanlyn; Impey, Chris; Nieberding, Megan; Antonellis, Jessie C.

2014-11-01

Radiation is an essential topic to the physical sciences yet is often misunderstood by the general public. The last time most people have formal instruction about radiation is as students in high school and this knowledge will be carried into adulthood. Peoples’ conceptions of radiation influence their attitude towards research regarding radiation, radioactivity, and other work where radiation is prevalent. In order to understand students’ ideas about radiation after having left high school, we collected science surveys from nearly 12,000 undergraduates enrolled in introductory science courses over a span of 25 years. This research investigates the relationship between students’ conceptions of radiation and students’ personal beliefs and academic field of study.Our results show that many students in the sample were unable to adequately describe radiation. Responses were typically vague, brief, and emotionally driven. Students’ field of study was found to significantly correlate with their conceptions. Students pursuing STEM majors were 60% more likely to describe radiation as an emission and/or form of energy and cited atomic or radioactive sources of radiation twice as often as non-STEM students. Additionally, students’ personal beliefs also appear to relate to their conceptions of radiation. The most prominent misconception shown was that radiation is a generically harmful substance, which was found to be consistent throughout the duration of the study. In particular, non-science majors in our sample had higher rates of misconceptions, often generalized the idea of radiation into a broad singular topic, and had difficulty properly identifying sources.Generalized ideas of radiation and the inability to properly recognize sources of radiation may contribute to the prevalent misconception that radiation is an inexplicably dangerous substance. A basic understanding of both electromagnetic and particulate radiation and the existence of radiation at various energy levels may substantially deter fear-based generalizations and increase students’ abilities to make rational decisions when encountering various types of radiation in daily life.

Undergraduate honors students' images of science: Nature of scientific work and scientific knowledge

NASA Astrophysics Data System (ADS)

Wallace, Michael L.

This exploratory study assessed the influence of an implicit, inquiry-oriented nature of science (NOS) instructional approach undertaken in an interdisciplinary college science course on undergraduate honor students' (UHS) understanding of the aspects of NOS for scientific work and scientific knowledge. In this study, the nature of scientific work concentrated upon the delineation of science from pseudoscience and the value scientists place on reproducibility. The nature of scientific knowledge concentrated upon how UHS view scientific theories and how they believe scientists utilize scientific theories in their research. The 39 UHS who participated in the study were non-science majors enrolled in a Honors College sponsored interdisciplinary science course where the instructors took an implicit NOS instructional approach. An open-ended assessment instrument, the UFO Scenario, was designed for the course and used to assess UHS' images of science at the beginning and end of the semester. The mixed-design study employed both qualitative and quantitative techniques to analyze the open-ended responses. The qualitative techniques of open and axial coding were utilized to find recurring themes within UHS' responses. McNemar's chi-square test for two dependent samples was used to identify whether any statistically significant changes occurred within responses from the beginning to the end of the semester. At the start of the study, the majority of UHS held mixed NOS views, but were able to accurately define what a scientific theory is and explicate how scientists utilize theories within scientific research. Postinstruction assessment indicated that UHS did not make significant gains in their understanding of the nature of scientific work or scientific knowledge and their overall images of science remained static. The results of the present study found implicit NOS instruction even with an extensive inquiry-oriented component was an ineffective approach for modifying UHS' images of science towards a more informed view of NOS.

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 credits while teaching young people about marine science and conservation. Classes of elementary and middle school students attend a class field trip to a UA teaching laboratory where they explore a variety of hands-on marine biology centers. Undergraduates facilitate the learning centers and develop new centers for future years of the program. In addition, undergraduates in Marine Discovery do a marine ecology field project during a field trip to the Gulf of California, and present their results as a research poster to their peers. The course is entirely project- based, and helps students to develop informal as well as formal science communication skills. Many outreach programs suffer from loss of funding and lack of sustainability. Marine Discovery's popularity with both UA undergraduates and K-12 teachers has helped sustain it into its sixteenth year.

A Synchronous Distance Education Course for Non-Scientists Coordinated among Three Universities

ERIC Educational Resources Information Center

Smith, Tamara Floyd; Baah, David; Bradley, James; Sidler, Michelle; Hall, Rosine; Daughtrey, Terrell; Curtis, Christine

2010-01-01

A Synchronous Distance Education (SDE) course, jointly offered by Auburn University, Tuskegee University and Auburn University at Montgomery, introduced non-science majors to the concepts of nanoscience. Lectures originated from each of the three campuses during the semester, and video conferencing equipment allowed students at all three campuses…

Geological Time, Biological Events and the Learning Transfer Problem

ERIC Educational Resources Information Center

Johnson, Claudia C.; Middendorf, Joan; Rehrey, George; Dalkilic, Mehmet M.; Cassidy, Keely

2014-01-01

Comprehension of geologic time does not come easily, especially for students who are studying the earth sciences for the first time. This project investigated the potential success of two teaching interventions that were designed to help non-science majors enrolled in an introductory geology class gain a richer conceptual understanding of the…

Using Chemistry as a Medium for Energy Education: Suggestions for Content and Pedagogy in a Nonmajors Course

ERIC Educational Resources Information Center

Shane, Joseph W.; Bennett, Steven D.; Hirschl-Mike, Rhonda

2010-01-01

This article describes a university chemistry course for nonscience majors that provides a comprehensive understanding of energy by coupling traditional chemical concepts and scientific technologies with appropriate economic, political, and legal mechanisms for monitoring and regulating energy both domestically and internationally. The scientific…

An Examination of Cognitive Processing of Multimedia Information Based on Viewers' Eye Movements

ERIC Educational Resources Information Center

Liu, Han-Chin; Chuang, Hsueh-Hua

2011-01-01

This study utilized qualitative and quantitative designs and eye-tracking technology to understand how viewers process multimedia information. Eye movement data were collected from eight college students (non-science majors) while they were viewing web pages containing different types of text and illustrations depicting the mechanism of…

Imploding Soda Cans: From Demonstration to Guided-Inquiry Laboratory Activity

ERIC Educational Resources Information Center

Eichler, Jack F.

2009-01-01

A guided-inquiry exercise conducted in both the lecture and laboratory components of a college introductory chemistry course for non-science majors is described. The exercise gave students the opportunity to independently determine the relationship between the temperature of water in an aluminum soda can and the intensity of implosion upon placing…

Non-Science Majors' Critical Evaluation of Websites in a Biotechnology Course

ERIC Educational Resources Information Center

Halverson, Kristy L.; Siegel, Marcelle A.; Freyermuth, Sharyn K.

2010-01-01

Helping students develop criteria for judgment and apply examination skills is essential for promoting scientific literacy. With the increasing availability of the Internet, it is even more essential that students learn how to evaluate the science they gather from online resources. This is particularly true because publishing information on the…

Chladni Patterns on Drumheads: A "Physics of Music" Experiment

ERIC Educational Resources Information Center

Worland, Randy

2011-01-01

In our "Physics of Music" class for non-science majors, we have developed a laboratory exercise in which students experiment with Chladni sand patterns on drumheads. Chladni patterns provide a kinesthetic, visual, and entertaining way to illustrate standing waves on flat surfaces and are very helpful when making the transition from one-dimensional…

Making Sense of Scientific Biographies: Scientific Achievement, Nature of Science, and Storylines in College Students' Essays

ERIC Educational Resources Information Center

Hwang, Seyoung

2015-01-01

In this article, the educative value of scientific biographies will be explored, especially for non-science major college students. During the "Scientist's life and thought" course, 66 college students read nine scientific biographies including five biologists, covering the canonical scientific achievements in Western scientific history.…

Turn on Chemistry Program with a Focus on Community Values.

ERIC Educational Resources Information Center

Kalra, R. M.

The program is a terminal course in chemistry for 9-12 grade students who are non-science majors, low achievers, and/or American Indians. Its objectives include to provide a systematic and practical overview of the discipline of chemistry; to change student behavior through this knowledge; to develop social responsibility, scientific attitude, and…

Pupils' Understanding of the Particulate Nature of Matter: A Cross-Age Study.

ERIC Educational Resources Information Center

Novick, Shimshon; Nussbaum, Joseph

1981-01-01

Traces the development of a pencil and paper instrument which measures the change in pupils' (N=576) conception of the particle model of matter. Responses of four groups of children in grades 5-12 and university sophomore nonscience majors revealed that some cognitive difficulties are experienced at all ages. (CS)

Guided Inquiry Activities for Learning about the Macro- and Micronutrients in Introductory Nutrition Courses

ERIC Educational Resources Information Center

Smith, Andri L.; Purcell, Rebecca J.; Vaughan, Joel M.

2015-01-01

Most students enroll in general education introductory nutrition classes because they want to improve their diets in order to lose weight or enhance athletic performance. These nonscience majors are often less interested in learning about the fundamental biochemical principles underlying nutrition or are surprised that this foundational knowledge…

Technology Rich Biology Labs: Effects of Misconceptions.

ERIC Educational Resources Information Center

Kuech, Robert; Zogg, Gregory; Zeeman, Stephan; Johnson, Mark

This paper describes a study conducted on the lab sections of the general biology course for non-science majors at the University of New England, and reports findings of student misconceptions about photosynthesis and the mass/carbon uptake during plant growth. The current study placed high technology analytic tools in the hands of introductory…

Testing the Effect of Meat Tenderizer on Human Hair: A Class Project for Nonscience Majors.

ERIC Educational Resources Information Center

Jones, Marjorie A.

2003-01-01

Uses a commercially available meat tenderizer for the source of an enzyme that can degrade meat protein and asks students to test the effects of incubating human hair in water with or without this enzyme. Teaches scientific methodology and the importance of experimental controls. (Author/YDS)

Disorder and Chaos: Developing and Teaching an Interdisciplinary Course on Chemical Dynamics

ERIC Educational Resources Information Center

Desjardins, Steven G.

2008-01-01

In this paper we describe an interdisciplinary course on dynamics that is appropriate for nonscience majors. This course introduces ideas about mathematical modeling using examples based on pendulums, chemical kinetics, and population dynamics. The unique emphasis for a nonmajors course is on chemical reactions as dynamical systems that do more…

Static and Current Electricity.

ERIC Educational Resources Information Center

Schlenker, Richard M.; Murtha, Kathy T.

This is a copy of the script for the electrical relationships unit in an auto-tutorial physical science course for non-science majors, offered at the University of Maine at Orono. The unit includes 15 simple experiments designed to allow the student to discover various fundamental electrical relationships. The student has the option of reading the…

Newsletter: Council on Physics in Education

ERIC Educational Resources Information Center

O'Dwyer, Terry, Ed.

1973-01-01

A committee was established to better understand and define the physics programs in two-year colleges. Its first task was to select the following working topics: (1) communication and study of the two-year college physics programs and problems, (2) development of modules of instruction for nonscience majors, and (3) use of the computer as an…

A Guided Inquiry on Hubble Plots and the Big Bang

ERIC Educational Resources Information Center

Forringer, Ted

2014-01-01

In our science for non-science majors course "21st Century Physics," we investigate modern "Hubble plots" (plots of velocity versus distance for deep space objects) in order to discuss the Big Bang, dark matter, and dark energy. There are two potential challenges that our students face when encountering these topics for the…

A Sustainable Energy Laboratory Course for Non-Science Majors

ERIC Educational Resources Information Center

Nathan, Stephen A.; Loxsom, Fred

2016-01-01

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…

Contemporary Topics in Science: A Kit for Survival.

ERIC Educational Resources Information Center

Aronstein, Laurence W.; Beam, Kathryn J.

This paper discusses a college-level course on contemporary topics in science offered to non-science majors at the State University College of New York. The authors examine the objectives, methods, and various student groupings utilized in the course, investigate why it has been successful, and make recommendations for courses of this nature. The…

Battling Ecophobia: Instilling Activism in Nonscience Majors when Teaching Environmental Issues

ERIC Educational Resources Information Center

Bloom, Mark A.; Holden, Molly

2011-01-01

When learning about large-scale environmental problems such as climate change, species extinctions, overpopulation, and habitat destruction, students can become hopelessly dismayed and experience ecophobia--a state of mind in which the student is fearful of the looming environmental problems but senses that there is nothing that can be done to…

Discovery Garden--Physics and Architecture Meet Outside to Talk

ERIC Educational Resources Information Center

Tabor-Morris, Anne; Briles, Timothy; Froriep, Kathleen; McGuire, Catherine

2012-01-01

The purpose of Georgian Court University's "Discovery Garden" is to create an experience of the physical sciences for students, both science and non-science majors, in a place of serenity: an outdoor garden. Why a garden? Consider that the traditional laboratory experience for students is one of stark rooms ventilated with noisy hoods…

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.

An Analysis of Learners in Introductory Astronomy Massive Open Online Courses

NASA Astrophysics Data System (ADS)

Buxner, Sanlyn; Formanek, Martin; Impey, Chris David; Wenger, Matthew

2016-06-01

We describe learners enrolled in three iterations of introductory astronomy massive open online courses (MOOCs). These courses are offered through commercial providers and facilitated by an instructional team at the University of Arizona. We describe an ongoing study of those who enroll, engage in, and complete these courses. The course has undergone several revisions, including integrating pedagogical techniques, found to be effective for in-person courses, to increase engagement including peer review, online discussions, and the use of cohorts. In its current version, learners enroll on a continual basis and complete 11 weeks of course content; they watch videos, complete content quizzes, submit writing assignments, complete peer review of other students’ work, and complete online citizen science projects. Tens of thousands of students has signed up for these courses but completion rates are much lower, around 10%. We have collected survey data from over 8,500 of these learners to assess their basic science knowledge, attitudes towards science and technology, motivations for taking the courses, and information about other ways they engage in science related activities. We present information about these learners, including their demographics, motivations, how they use the courses, and what factors lead to increased engagement and completion. Additionally, we present how survey data from these learners compare to 26 years of data we have collected from parallel group of undergraduate non-science major students enrolled in astronomy courses at the University of Arizona. Overall, we find that learners who enroll in the MOOCs have more interest in science and higher basic science knowledge that undergraduates who pay tuition for a similar course. Our work is helping us understand how to better serve learners in MOOCs and bridge more traditional courses with these types of courses.

Evaluating science arguments: evidence, uncertainty, and argument strength.

PubMed

Corner, Adam; Hahn, Ulrike

2009-09-01

Public debates about socioscientific issues are increasingly prevalent, but the public response to messages about, for example, climate change, does not always seem to match the seriousness of the problem identified by scientists. Is there anything unique about appeals based on scientific evidence-do people evaluate science and nonscience arguments differently? In an attempt to apply a systematic framework to people's evaluation of science arguments, the authors draw on the Bayesian approach to informal argumentation. The Bayesian approach permits questions about how people evaluate science arguments to be posed and comparisons to be made between the evaluation of science and nonscience arguments. In an experiment involving three separate argument evaluation tasks, the authors investigated whether people's evaluations of science and nonscience arguments differed in any meaningful way. Although some differences were observed in the relative strength of science and nonscience arguments, the evaluation of science arguments was determined by the same factors as nonscience arguments. Our results suggest that science communicators wishing to construct a successful appeal can make use of the Bayesian framework to distinguish strong and weak arguments. 2009 APA, all rights reserved

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

This study was designed to discover if there is a difference in the scientific attitudes and process skills between a group of students who were instructed with Living in a Material World and groups of students in non-science majors sections of introductory biology, chemistry, and geology courses at the University of Southern Mississippi (USM). Each of the four courses utilized different instructional techniques. Students' scientific attitudes were measured with the Scientific Attitudes Inventory (SAI II) and their knowledge of science process skills were measured with the Test of Integrated Process Skills (TIPS II). The Group Assessment of Logical Thinking (GALT) was also administered to determine if the cognitive levels of students are comparable. A series of four questionnaires called Qualitative Course Assessments (QCA) were also administered to students in the experimental course to evaluate subtle changes in their understanding of the nature and processes of science and attitudes towards science. Student responses to the QCA questionnaires were triangulated with results of the qualitative instruments, and students' work on the final project. Results of the GALT found a significant difference in the cognitive levels of students in the experimental course (PSC 190) and in one of the control group, the introductory biology (BSC 107). Results of the SAI II and the TIPS II found no significant difference between the experimental group and the control groups. Qualitative analyses of students' responses to selected questions from the TIPS II, selected items on the SAI II, QCA questionnaires, and Materials that Fly project reports demonstrate an improvement in the understanding of the nature and processes of science and a change to positive attitude toward science of students in the experimental group. Students indicated that hands-on, inquiry-based labs and performance assessment were the most effective methods for their learning. These results indicate that science 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.

Titrimetric Determination of Carbon Dioxide in a Heterogeneous Sample ("Pop Rocks")

NASA Astrophysics Data System (ADS)

Davis, Craig M.; Mauck, Matthew C.

2003-05-01

A traditional exercise in quantitative analysis is the titration of mixtures of sodium hydroxide, sodium carbonate, and sodium bicarbonate. Often, consumer products are studied. A procedure to analyze the total volume of carbon dioxide bubbles in the candy "Pop Rocks" is presented. The popularity of the sample and the simplicity of the procedure make this exercise suitable for a wide variety of students: from non-science majors to chemistry majors in a quantitative analysis course.

Two Year Community: Design and Components of a Two-Year College Interdisciplinary Field-Study Course

ERIC Educational Resources Information Center

Wolfe, Benjamin A.; Martin, Todd C.

2013-01-01

Interdisciplinary field study courses at 2-year colleges can provide an opportunity to enhance student learning. The authors present here an 11-day interdisciplinary field-study course designed for nonscience majors at a 2-year college. Using a theoretical learning framework that emphasizes cognitive and metacognitive gains, the field study…

Transitional to Formal Operational: Using Authentic Research Experiences to Get Non-Science Students to Think More Like Scientists

ERIC Educational Resources Information Center

Moore, J. Christopher

2012-01-01

University and high school students not pursuing a science, technology, engineering, and/or mathematics (STEM) course of study demonstrate less developed scientific reasoning than their STEM-based peers. Previous studies show that the majority of non-STEM students can be classified as either concrete operational or transitional reasoners in…

Integrating the Liberal Arts and Chemistry: A Series of General Chemistry Assignments to Develop Science Literacy

ERIC Educational Resources Information Center

Miller, Diane M.; Chengelis Czegan, Demetra A.

2016-01-01

This paper describes assignments that have been implemented in a General Chemistry I course to promote science literacy. This course was chosen in particular because it reaches a broad audience, which includes nonscience majors. The assignment series begins with several discussions and tasks to develop information literacy, in which students find…

"An Inconvenient Truth"--Is It Still Effective at Familiarizing Students with Global Warming?

ERIC Educational Resources Information Center

Griep, Mark A.; Reimer, Kaitlin

2016-01-01

Chemistry courses for nonscience majors emphasize chemical concepts and the relationship of chemical knowledge to everyday life while teaching the utility of quantitative analysis. As an introduction to the topic of global warming, the first half of "An Inconvenient Truth," released in 2006, has been shown annually since 2008 in the…

Courses on the Beauty of Mathematics: Our Version of General Education Mathematics Courses

ERIC Educational Resources Information Center

Rash, Agnes M.; Fillebrown, Sandra

2016-01-01

This article describes various courses designed to incorporate mathematical proofs into courses for non-math and non-science majors. These courses, nicknamed "math beauty" courses, are designed to discuss one topic in-depth rather than to introduce many topics at a superficial level. A variety of courses, each requiring students to…

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…

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,…

Water Literacy in College Freshmen: Could a Cognitive Imagery Strategy Improve Understanding?

ERIC Educational Resources Information Center

Ewing, Margaret S.; Mills, Terence J.

1994-01-01

Presents a study designed to determine whether levels of water literacy differed between (n=83) college freshman nonscience majors having one versus two years of high school science coursework, visual imagery exercises could improve understanding of the water cycle, and patterns exist in the concept of the water cycle. (Contains 23 references.)…

Creating and Teaching a Web-Based, University-Level Introductory Chemistry Course that Incorporates Laboratory Exercises and Active Learning Pedagogies

ERIC Educational Resources Information Center

Phipps, Linda R.

2013-01-01

An introductory, nonscience-majors chemistry course was converted to a Web-based course. The differences in student populations, teaching strategies, laboratory methods, and learning outcomes are described. Practical information is also given on the use of software and other online technology to implement course conversion. (Contains 2 tables.)

University Students' Understanding of Chemistry Processes and the Quality of Evidence in Their Written Arguments

ERIC Educational Resources Information Center

Seung, Eulsun; Choi, Aeran; Pestel, Beverly

2016-01-01

We have developed a process-oriented chemistry laboratory curriculum for non-science majors. The purpose of this study is both to explore university students' understanding of chemistry processes and to evaluate the quality of evidence students use to support their claims regarding chemistry processes in a process-oriented chemistry laboratory…

A Student Activity on Visual Resolving Power

ERIC Educational Resources Information Center

Warren, T. H.; Henriksen, P. N.; Ramsier, R. D.

2003-01-01

We present a simple activity in which students measure the resolving power of their eyes. The approach can be used at various levels of sophistication with students having a wide variety of skills and scientific training. We discuss our experiences using this activity with a class of non-science majors as well as with a group of pre-engineering…

Effect of Different Types of Small-Group Activities on Students' Conversations

ERIC Educational Resources Information Center

Young, Krista K.; Talanquer, Vicente

2013-01-01

Teaching reform efforts in chemistry education often involve engaging students in small-group activities of different types. This study focused on the analysis of how activity type affected the nature of group conversations. In particular, we analyzed the small-group conversations of students enrolled in a chemistry course for nonscience majors.…

A Severe Weather Laboratory Exercise for an Introductory Weather and Climate Class Using Active Learning Techniques

ERIC Educational Resources Information Center

Grundstein, Andrew; Durkee, Joshua; Frye, John; Andersen, Theresa; Lieberman, Jordan

2011-01-01

This paper describes a new severe weather laboratory exercise for an Introductory Weather and Climate class, appropriate for first and second year college students (including nonscience majors), that incorporates inquiry-based learning techniques. In the lab, students play the role of meteorologists making forecasts for severe weather. The…

Targeting the Development of Content Knowledge and Scientific Reasoning: Reforming College-Level Chemistry for Nonscience Majors

ERIC Educational Resources Information Center

Carmel, Justin H.; Jessa, Yasmin; Yezierski, Ellen J.

2015-01-01

A liberal education curriculum requires discipline-specific courses that develop intellectual and practical skills. With this promise of development, it is crucial that instruction focuses on content knowledge as well as the thinking patterns associated with the content. In chemistry, scientific reasoning is one such skill that students should…

College Students' Opinions of Engaging Approaches in a Physical Science Course

ERIC Educational Resources Information Center

Gonzalez-Espada, Wilson

2009-01-01

Physical science courses have historically been taught from a variety of perspectives or emphases. In many cases, the instructor decides on the perspective and textbook for nonscience majors, so students rarely have a voice in the decision. This top-down approach and a potential gap between what instructors and students expect from a general…

Student Performance in Mathematics: Should We Be Concerned? Evidence from a Retail Course

ERIC Educational Resources Information Center

Enderson, Mary C.; Mann, Manveer

2018-01-01

This article describes how for many college students the transition to college-level mathematics courses presents new challenges beyond those that were part of the high school experience. In this interdisciplinary study forty-four non-mathematics and non-science majors, enrolled in a retail-buying course, were studied to examine student confidence…

The Analysis of a Murder, a Case Study

ERIC Educational Resources Information Center

Dinan, Frank J.; Szczepankiewicz, Steven H.; Carnaham, Melinda; Colvin, Michael T.

2007-01-01

The analysis of a Murder case study can be used in general chemistry or nonscience major chemistry courses to teach data handling and analysis in a non-laboratory context. This case study will help students to respond more enthusiastically and with more interest to a set of material placed before them related to a real case rather than…

The Energy Retrofit of a Building: A Journey Through Bloom's Learning Domains

ERIC Educational Resources Information Center

Morgenstern, Mark; Meyer, Sally; Whitten, Barbara; Reuer, Matt

2008-01-01

At Colorado College, the energy retrofit of a building is used as a service-learning research project to teach physics and chemistry in a variety of courses. In introductory courses for nonscience majors, the project helps students appreciate the scientific method and quantitative reasoning. Within the physical-chemistry course, students see that…

An Experiment-Oriented Approach to Teaching the Kinetic Molecular Theory.

ERIC Educational Resources Information Center

Wiseman, Frank L., Jr.

1979-01-01

This paper reports an experiment in the teaching of the kinetic molecular theory to nonscience majors by the inquiry method. It allows the student to develop an essentially correct view of gases, liquids, and solids on the atomic or molecular level, and illustrates how one can draw conclusions about the molecular level by simple visual…

Epistemic Beliefs and Conceptual Understanding in Biotechnology: A Case Study

NASA Astrophysics Data System (ADS)

Rebello, Carina M.; Siegel, Marcelle A.; Witzig, Stephen B.; Freyermuth, Sharyn K.; McClure, Bruce A.

2012-04-01

The purpose of this investigation was to explore students' epistemic beliefs and conceptual understanding of biotechnology. Epistemic beliefs can influence reasoning, how individuals evaluate information, and informed decision making abilities. These skills are important for an informed citizenry that will participate in debates regarding areas in science such as biotechnology. We report on an in-depth case study analysis of three undergraduate, non-science majors in a biotechnology course designed for non-biochemistry majors. We selected participants who performed above average and below average on the first in-class exam. Data from multiple sources—interviews, exams, and a concept instrument—were used to construct (a) individual profiles and (b) a cross-case analysis of our participants' conceptual development and epistemic beliefs from two different theoretical perspectives—Women's Ways of Knowing and the Reflective Judgment Model. Two independent trained researchers coded all case records independently for both theoretical perspectives, with resultant initial Cohen's kappa values above .715 (substantial agreement), and then reached consensus on the codes. Results indicate that a student with more sophisticated epistemology demonstrated greater conceptual understandings at the end of the course than a student with less sophisticated epistemology, even though the latter performed higher initially. Also a student with a less sophisticated epistemology and low initial conceptual performance does not demonstrate gains in their overall conceptual understanding. Results suggest the need for instructional interventions fostering epistemological development of learners in order to facilitate their conceptual growth.

A comparison of students' achievement and attitude as a function of lecture/lab sequencing in a non-science majors introductory biology course

NASA Astrophysics Data System (ADS)

Hurst March, Robin Denise

This investigation compared student achievement and attitudes toward science from three different sequencing approaches used in teaching biology to nonscience students. The three sequencing approaches were the lecture course only, lecture/laboratory courses taken together, and laboratory with previously taken lecture approach. The purposes of this study were to determine if (1) a relationship exists between the Attitude Towards Science in School Assessment (ATSSA) scores (Germann, 1988) and biology achievement, (2) a difference exists among the ATSSA scores and sequencing, (3) a difference exists among the biology achievement scores and sequencing, and (4) the ATSSA is a reliable instrument of science attitude assessment for the undergraduate students in an introductory biology nonmajors laboratory and lecture courses at a research I institution during the fall semester 1996. Fifty-four students comprised the lecture only group, 90 students comprised the lecture and laboratory taken together approach, and 23 students comprised the laboratory only approach. Research questions addressed were (1) What are the differences in student biology achievement as a function of the three different methods of instruction? (2) What are the differences in student attitude towards science as a function of the three different methods of instruction? (3) What is the relationship between post-attitude (ATSSA) and biology achievement for each of the three methods of instruction? An analysis of variance utilized the mean posttest scores on the ATSSA and mean achievement scores as the dependent variables. The independent variables were the three different sequences of enrollment in introductory biology. At the.05 level of significance, it was found that no significant difference existed between the ATTS and laboratory/lecture sequence. At the.05 level of significance, it was found that no significant difference existed between achievement and laboratory/lecture sequence. A Pearson product moment correlation was used to see if a relationship existed between posttest ATSSA scores and achievement totals in each sequence. A significant relationship was noted between the ATSSA and achievement in each sequence that involved a laboratory component.

Assessing Academic Self-Efficacy, Knowledge, and Attitudes in Undergraduate Physiology Students

PubMed Central

Woolcock, Andrew D.; Creevy, Kate E.; Coleman, Amanda E.; Moore, James N.; Brown, Scott A.

2016-01-01

Academic self-efficacy affects the success of students in the sciences. Our goals were to develop an instrument to assess the self-efficacy and attitudes toward science of students in an undergraduate physiology course. We hypothesized 1) that our instrument would demonstrate that students taking this course would exhibit greater self-efficacy and more positive attitudes toward science than students in a non-science undergraduate course, and 2) that the physiology students’ self-efficacy and attitudes would improve after completing the course. A 25-question survey instrument was developed with items investigating demographic information, self-efficacy, content knowledge, confidence, and attitudes regarding science. Students in either an undergraduate physiology course (Group P) or a history course (Group H) completed the survey. Forty-eight students in Group P completed both PRE- and POST-class surveys, while 50 students in Group H completed the pre-class survey. The academic self-efficacy of Group P as assessed by the PRE-survey was significantly higher than Group H (p=0.0003). Interestingly, there was no significant difference between groups in content knowledge in the PRE-survey. The self-efficacy of Group P was significantly higher as assessed by the POST-survey, when compared to the PRE-survey (p<0.0001) coincident with an improvement (p<0.001) in content knowledge for Group P in the POST-survey. This study established a survey instrument with utility in assessing self-efficacy, attitudes, and content knowledge. Our approach has applicability to studies designed to determine the impact of instructional variables on academic self-efficacy, attitudes, and confidence of students in the sciences. PMID:27713903

An examination of an aspect of the worldview of female college science teachers as revealed by their concepts of nature

NASA Astrophysics Data System (ADS)

Tryon, Lisa A.

American citizens are confronted every day with scientific issues such as global warming, alternative energy technologies, stem cell research, and the use of genetically modified foods. A scientifically literate adult should be able to understand these issues, see how they relate to their own lives, and make choices that reflect their knowledge of the problems at hand. Research has indicated that the majority of U.S. students are not prepared to take a proactive role in current scientific issues and so undergraduate educators are being charged with the task of improving the relevancy of science to the nonscience student. One method for exploring this problem has been the application of worldview theory, which seeks to analyze the thoughts and attitudes of teachers and students with regard to science in their lives. This qualitative case study sought to uncover the worldviews of female science college professors particularly as they related to nature and to examine how these educators felt their worldviews might influence their students. A series of established card sort activities used in previous worldview studies, in combination with an in-depth interview facilitated the data collection from female science professors teaching at universities in New England.

Canadian dental students' perceptions of stress.

PubMed

Muirhead, Vanessa; Locker, David

2007-05-01

In this paper, we report the results of a survey on dental student stress carried out in April 2005. A questionnaire was used to collect data from 171 students (62% response rate). Identified stressors were academic, clinic-related, social and financial. "Examination and grades" produced the most academic stress, and inconsistent feedback from instructors created the most clinic-related stress. Students found that having a dual role--wife or husband and dental student--was the most burdensome social stressor. Approximately 60% of students reported marital problems and stress associated with "relations with members of the opposite sex." Survey results showed that students who expected a high graduating debt had higher total and academic stress scores. Total stress was not related to age, gender or marital status. Students living with parents during term time had significantly higher total stress scores than students living in other arrangements. Students residing with parents also had significantly higher debts on entry to dental school. Students with more predental education had (non-significantly) lower stress scores but also had higher student debts. Undergraduate subject major (biological science or non-science) had no bearing on reported stress. This study highlights the negative effects of student debt, the necessity for staff training and the need for further studies exploring relations among stress, psychological well-being and academic performance.

Pigment Synthesis for the Exploration of Binding Media Using a Lead-Free Alternative to Chrome Yellow

ERIC Educational Resources Information Center

Gaquere-Parker, Anne C.; Hill, Patricia S.; Haaf, Michael P.; Parker, Cass D.; Doles, N. Allie; Yi, Amanda K.; Kaminski, Todd A.

2017-01-01

Generating enthusiasm among nonscience majors in a laboratory course is a difficult task. Often, students are asked to perform a precipitation reaction, only to collect and then safely dispose of the solid without detailing composition, properties, or uses. In an effort to keep the students engaged, this laboratory exercise presents an innovative…

Designing and Incorporating Green Chemistry Courses at a Liberal Arts College to Increase Students' Awareness and Interdisciplinary Collaborative Work

ERIC Educational Resources Information Center

Manchanayakage, Renuka

2013-01-01

Two green chemistry courses have been introduced into the liberal arts curriculum at Susquehanna University. Green chemistry was integrated into an existing course, Chemical Concepts, and offered as Green Chemical Concepts for nonscience majors. This course is designed to instill an appreciation for green chemistry in a large and diverse group of…

News clippings for introductory astronomy

NASA Astrophysics Data System (ADS)

Bobrowsky, Matthew

1999-09-01

Most students entering our introductory astronomy course for nonscience majors arrive not merely lacking scientific facts-they also have misconceptions about the nature of science, and many have a handicapping ``science anxiety'' (in addition to math anxiety). So I have added a ``current science'' requirement to our introductory course. Each student must compile a file of five astronomy news articles taken from readily available sources.

Brewing Science in the Chemistry Laboratory: A "Mashing" Investigation of Starch and Carbohydrates

ERIC Educational Resources Information Center

Pelter, Michael W.; McQuade, Jennifer

2005-01-01

The experiments that mimic the actual brewing process to explain the science to the nonscience majors is performed using malted barley as the source for both the starch and the amylase enzyme. The experiment introduces the concept of monitoring the progress of chemical reaction and was able to show the chemical breakdown of the starch to simple…

University Students' Knowledge Structures and Informal Reasoning on the Use of Genetically Modified Foods: Multidimensional Analyses

ERIC Educational Resources Information Center

Wu, Ying-Tien

2013-01-01

This study aims to provide insights into the role of learners' knowledge structures about a socio-scientific issue (SSI) in their informal reasoning on the issue. A total of 42 non-science major university students' knowledge structures and informal reasoning were assessed with multidimensional analyses. With both qualitative and…

Introduction to Astrophysics. Curriculum Developed by Faculty Workshop at University of Illinois at Chicago, Summer 1974.

ERIC Educational Resources Information Center

Illinois Univ., Chicago. Chicago Circle Campus.

The course outlines presented in this report are intended to be used to teach astrophysics to nonscience majors at the junior and senior college level. An extensive set of notes are included which can be useful to an instructor as guidelines for presentation. Additional equipment and references for use in teaching astrophysics are suggested. (SA)

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

ERIC Educational Resources Information Center

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

2015-01-01

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…

The Influence of Pedagogical Content Knowledge (PCK) for Teaching Macroevolution on Student Outcomes in a General Education Biology Course

ERIC Educational Resources Information Center

Walter, Emily Marie

2013-01-01

This study investigated the influence of pedagogical content knowledge (PCK) for teaching macroevolution on non-science majors' knowledge of macroevolution and evolution acceptance. The nature and sources of an experienced faculty member's PCK and instruction as enacted PCK (Park & Oliver, 2008) were examined to consider the influence of these…

When Science and Information Literacy Meet: An Approach to Exploring the Sources of Science News with Non-Science Majors

ERIC Educational Resources Information Center

Majetic, Cassie; Pellegrino, Catherine

2014-01-01

The skill set associated with lifelong scientific literacy often includes the ability to decode the content and accuracy of scientific research as presented in the media. However, students often find decoding science in the media difficult, due to limited content knowledge and shifting definitions of accuracy. Faculty have developed a variety of…

Approaching a Conceptual Understanding of Enzyme Kinetics and Inhibition: Development of an Active Learning Inquiry Activity for Prehealth and Nonscience Majors

ERIC Educational Resources Information Center

House, Chloe; Meades, Glen; Linenberger, Kimberly J.

2016-01-01

Presented is a guided inquiry activity designed to be conducted with prenursing students using an analogous system to help develop a conceptual understanding of factors impacting enzyme kinetics and the various types of enzyme inhibition. Pre- and postconceptual understanding evaluations and effectiveness of implementation surveys were given to…

Impact of Redesigning a Large-Lecture Introductory Earth Science Course to Increase Student Achievement and Streamline Faculty Workload

ERIC Educational Resources Information Center

Kapp, Jessica L.; Slater, Timothy F.; Slater, Stephanie J.; Lyons, Daniel J.; Manhart, Kelly; Wehunt, Mary D.; Richardson, Randall M.

2011-01-01

A Geological Perspective is a general education survey course for non-science majors at a large southwestern research extensive university. The class has traditionally served 600 students per semester in four 150-student lectures taught by faculty, and accompanied by optional weekly study groups run by graduate teaching assistants. We radically…

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…

Ripped from the Headlines: Using Current Events and Deliberative Democracy to Improve Student Performance in and Perceptions of Nonmajors Biology Courses†

PubMed Central

Tinsley, Heather N.

2016-01-01

Despite the importance of scientific literacy, many foundational science courses are plagued by low student engagement and performance. In an attempt to improve student outcomes, an introductory biology course for nonscience majors was redesigned to present the course content within the framework of current events and deliberative democratic exercises. During each instructional unit of the redesigned course, students were presented with a highly publicized policy question rooted in biological principles and currently facing lawmakers. Working in diverse groups, students sought out the information that was needed to reach an educated, rationalized decision. This approach models civic engagement and demonstrates the real-life importance of science to nonscience majors. The outcomes from two semesters in which the redesign were taught were compared with sections of the course taught using traditional pedagogies. When compared with other versions of the same course, presenting the course content within a deliberative democratic framework proved to be superior for increasing students’ knowledge gains and improving students’ perceptions of biology and its relevance to their everyday lives. These findings establish deliberative democracy as an effective pedagogical strategy for nonmajors biology. PMID:28101264

Socioscientific Argumentation of Pre-Service Teachers about Genetically Modified Organisms

NASA Astrophysics Data System (ADS)

Herawati, D.; Ardianto, D.

2017-09-01

This study aims to investigate socioscientific argumentation of pre-service teachers of science and non-science major regarding Genetically Modified Organisms (GMOs) issue. We used descriptive study and involved second-year pre-service teachers from two major, 28 pre-service science teachers (PSTs) and 28 pre-service non-science teachers (PNSTs) as participants. Paper and pencil test was administered in order to obtain the data of PSTs’ and PNSTs’ argument about GMOs. All of the data were analyzed by descriptive analysis. We applied Toulmin Argumentation Pattern (TAP) as a basic framework to identify the argumentation component. The result showed that both PSTs and PNSTs were able to propose an argument with a claim, data, and/or warrant.. Most of their argument contain data which provided in the text, without any further reasoning or relevant scientific knowledge. So, the coherency between argumentation component in both PSTs and PNSTs was limited. However, PSTs are more able to propose coherent arguments than PNSTs. These findings indicated that educational background and learning experiences may influence to pre-service teacher argumentation in the context of GMOs. Beside that, teaching and learning process which focused on the socioscientific issues is necessary to develop pre-service teachers’ argumentation

Project LITE Spectroscopy

NASA Astrophysics Data System (ADS)

Weeks, E.; Brecher, K.; Carr, P.; Garik, P.

2003-12-01

Spectroscopy is one of the most important tools used by astronomers to disentangle information about the universe. However, it is one of the most challenging subjects in undergraduate astronomy courses. Among the most difficult concepts for students to master are Kirchhoff's laws, blackbody radiation, the Stefan-Boltzmann law, Wien's law, the nature and causes of emission and absorption lines, and the relation of spectra to the underlying astronomical and physical processes producing them. Students often seem baffled by the connection between a spectrum seen visually as a color band and the same spectrum plotted graphically as intensity versus wavelength or frequency. Project LITE (Light Inquiry Through Experiments) is a software, curriculum, and materials development project at Boston University. As part of the project, we are currently developing a suite of spectroscopic tools for astronomy education. We are also assessing their effectiveness in improving conceptual understanding of spectroscopic phenomena by astronomy students at the undergraduate level. The spectroscopy component of Project LITE includes take-home laboratory materials and experiments, which are integrated with web-based software. We have also developed a novel quantitative handheld binocular spectrometer (patent pending). Here we present an overview of the Project LITE homelab kits and curriculum, the Spectrum Explorer, and the Project LITE spectrometer. The homelab experiments and the Spectrum Explorer have been tested with students in a non-science majors introductory astronomy course as well as in a School of Education course for prospective elementary school science teachers. We present preliminary results of pre- and post-instruction surveys of student understanding of various spectral properties of light both from students who used the homelab activities and the Spectrum Explorer and those who did not. The Spectrum Explorer (along with many other applets about both the physical and perceptual nature of light) can be found at the Project LITE web site http://lite.bu.edu. Project LITE is supported by Grant #DUE-0125992 from the National Science Foundation Division of Undergraduate Education. E. W. is supported by a NASA Graduate Student Research Fellowship, NASA Grant number NGT5-50482.

I'll Tell You What You Think: An Exercise in Pseudoscience Debunking in an Introductory Astronomy Course

ERIC Educational Resources Information Center

Caton, Dan

2013-01-01

At Appalachian State University students have to take just two semesters of a physical or biological science to satisfy the general education requirements. Most non-science major students have little time in their crowded schedules to take additional science courses, whether they want to or not, and in fact face a surcharge when taking more…

Art, Meet Chemistry; Chemistry, Meet Art: Case Studies, Current Literature, and Instrumental Methods Combined to Create a Hands-On Experience for Nonmajors and Instrumental Analysis Students

ERIC Educational Resources Information Center

Nivens, Delana A.; Padgett, Clifford W.; Chase, Jeffery M.; Verges, Katie J.; Jamieson, Deborah S.

2010-01-01

Case studies and current literature are combined with spectroscopic analysis to provide a unique chemistry experience for art history students and to provide a unique inquiry-based laboratory experiment for analytical chemistry students. The XRF analysis method was used to demonstrate to nonscience majors (art history students) a powerful…

Mother Earth Chemistry: A Laboratory Course for Nonmajors

NASA Astrophysics Data System (ADS)

Roberts, J. L.; Selco, J. I.; Wacks, D. B.

1996-08-01

Mother Earth Chemistry is a laboratory-based course designed to introduce nonscience majors to chemistry using familiar products such as beer, soap, yogurt, and cheese as well as products made from soybeans, including soymilk, tofu, and tempeh. Students make the products and learn some of the chemistry and biochemistry involved in their home manufacture as well as the rudiments of chemical analysis, stoichiometry, and the scientific method.

Effects of Node-Link Mapping on Non-Science Majors' Meaningful Learning and Conceptual Change in a Life-Science Survey Lecture Course

ERIC Educational Resources Information Center

Park-Martinez, Jayne Irene

2011-01-01

The purpose of this study was to assess the effects of node-link mapping on students' meaningful learning and conceptual change in a 1-semester introductory life-science course. This study used node-link mapping to integrate and apply the National Research Council's (NRC, 2005) three principles of human learning: engaging students' prior…

Interdisciplinary Science Courses for College General Education Requirements: Perspectives of Faculty at a State University.

ERIC Educational Resources Information Center

Dass, Pradeep Maxwell

Science educators have been advocating a broader role for science education--that of helping all students see the relevance of science to their own lives. Yet the only experience with post-secondary science that non-science majors get is through a couple of science courses which are part of the general education requirements (GERs) for a liberal…

The Impact of Cooperative Quizzes in a Large Introductory Astronomy Course for Non-Science Majors

ERIC Educational Resources Information Center

Zeilik, Michael; Morris, Vicky J.

2004-01-01

In Astronomy 101 at the University of New Mexico, we carried out a repeated-items experiment on quizzes and tests to investigate the impact of cooperative testing. This trial was the only change in a reformed course format that had been refined over previous semesters. Our research questions were: (1) Did cooperative quizzes result in gains for…

Mathematics Models in Chemistry--An Innovation for Non-Mathematics and Non-Science Majors

ERIC Educational Resources Information Center

Rash, Agnes M.; Zurbach, E. Peter

2004-01-01

The intention of this article is to present a year-long interdisciplinary course, Mathematical Models in Chemistry. The course is comprised of eleven units, each of which has both a mathematical and a chemical component. A syllabus of the course is given and the format of the class is explained. The interaction of the professors and the content is…

Modeling the Water Balloon Slingshot

NASA Astrophysics Data System (ADS)

Bousquet, Benjamin D.; Figura, Charles C.

2013-01-01

In the introductory physics courses at Wartburg College, we have been working to create a lab experience focused on the scientific process itself rather than verification of physical laws presented in the classroom or textbook. To this end, we have developed a number of open-ended modeling exercises suitable for a variety of learning environments, from non-science major classes to algebra-based and calculus-based introductory physics classes.

Exploring Sun-Earth Connections: A Physical Science Program for (K-8)Teachers

NASA Astrophysics Data System (ADS)

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

2003-12-01

An experimental, inquiry-based physical science curriculum for undergraduate, pre-service K-8 teachers is under development at the Catholic University of America in collaboration with the Solar Physics Branch of the Naval Research Laboratory and NASA's Sun-Earth Connection missions. This is a progress report. The current, stunningly successful exploratory phase in Sun-Earth Connection (SEC) physics, sparked by SOHO, Yohkoh, TRACE, and other International Solar Terrestrial Physics (ISTP) and Living With a Star (LWS) programs, has provided dynamic, visually intuitive data that can be used for teaching basic physical concepts such as the properties of gravitational and electromagnetic fields which are manifest in beautiful imagery of the astrophysical plasmas of the solar atmosphere and Earth's auroras. Through a team approach capitalizing on the combined expertise of the Catholic University's departments of Education and Physics and of NRL solar researchers deeply involved in SEC missions we have laid out a program that will teach non-science-major undergraduates a very limited number of physical science concepts but in such a way as to develop for each one both a formal understanding and an intuitive grasp that will instill confidence, spark interest and scientific curiosity and, ideally, inspire a habit of lifetime inquiry and professional growth. A three-semester sequence is planned. The first semester will be required of incoming Education freshmen. The second and third semesters will be of such a level as to satisfy the one-year science requirement for non-science majors in the College of Arts and Sciences. The approach as adopted will integrate physics content and educational methods, with each concept introduced through inquiry-based, hands-on investigation using methods and materials directly applicable to K-8 teaching situations (Exploration Phase). The topic is further developed through discussion, demonstration and lecture, introducing such mathematical formulations as are necessary to express the concept clearly (Invention Phase). To further clarify the concept, exercises will be carried out using Web-accessible SEC mission data to develop facility in use of the mathematical formulations, stimulate a sense of participation in ongoing research, and expand on ways to introduce future pupils to the excitement of real-world exploration (Expansion Phase).

Writing Assignments in Disguise: Lessons Learned Using Video Projects in the Classroom

NASA Astrophysics Data System (ADS)

Wade, P.; Courtney, A.

2012-12-01

This study describes the instructional approach of using student-created video documentaries as projects in an undergraduate non-science majors' Energy Perspectives science course. Four years of teaching this course provided many reflective teaching moments from which we have enhanced our instructional approach to teaching students how to construct a quality Ken Burn's style science video. Fundamental to a good video documentary is the story told via a narrative which involves significant writing, editing and rewriting. Many students primarily associate a video documentary with visual imagery and do not realize the importance of writing in the production of the video. Required components of the student-created video include: 1) select a topic, 2) conduct research, 3) write an outline, 4) write a narrative, 5) construct a project storyboard, 6) shoot or acquire video and photos (from legal sources), 7) record the narrative, 8) construct the video documentary, 9) edit and 10) finalize the project. Two knowledge survey instruments (administered pre- and post) were used for assessment purposes. One survey focused on the skills necessary to research and produce video documentaries and the second survey assessed students' content knowledge acquired from each documentary. This talk will focus on the components necessary for video documentaries and the instructional lessons learned over the years. Additionally, results from both surveys and student reflections of the video project will be shared.

Teaching ASTRO 101 Students the Art of Scientific Argumentation

NASA Astrophysics Data System (ADS)

Schleigh, Sharon P.; Slater, Stephanie; Slater, Timothy F.

2016-01-01

Going beyond asking students to simply memorize facts about the universe, a longstanding challenge in teaching astronomy centers on successfully teaching students about the nature of science. As introductory astronomy survey courses, known widely as ASTRO 101, can sometimes be the last science course non-science majoring undergraduates take, many faculty hope to emphasize the scientific enterprise as a broad field in inquiry making valuable contributions to civilization as a whole, rather than as an isolated study of objects far from Earth. Scholars have long proposed that an understanding of the nature of science as a human endeavor requires explicit instruction. In other words, students successfully learning the facts of astronomy does not in any way ensure that students will learn anything about the nature of how astronomy is done. In a purposeful effort to improve students' understanding about the practices and discourse of astronomy, scholars working with the CAPER Center for Astronomy & Physics Education research are developing a suite of carefully designed instructional sequences—called Scientific Argumentation—focused on teaching students the differences between data and evidence, how to communicate and defend evidence-based conclusions, and how to be informed skeptics of scientific claims. Early results show students moving from naïve understandings of scientific practices to more informed understandings as well as demonstrating enhanced value for science in general as an worthwhile human endeavor with far reaching benefits.

Chemistry in the Two-Year College. Proceedings from Two-Year College Chemistry Conference and Papers of Special Interest to the Two-Year College Chemistry Teacher. 1971 No. 1.

ERIC Educational Resources Information Center

Chapman, Kenneth, Ed.

In this publication, issued twice per year, four major topics are discussed: (1) chemistry course content, including chemistry for nonscience students and nurses; (2) using media in chemistry, such as behavioral objectives and audio-tutorial aids; (3) chemical technology, with emphasis on the Chemical Technology Curriculum Project (Chem TeC); and…

Saudi English-Major Undergraduates' Academic Writing Problems: A Taif University Perspective

ERIC Educational Resources Information Center

Al-Khairy, Mohamed Ali

2013-01-01

This study attempted to investigate Saudi English-major undergraduates studying at Taif University to identify a) the types of academic writing Saudi English-major undergraduates carry out at English departments, b) Saudi English-major undergraduates' writing problems, c) the reasons behind Saudi English-major undergraduates' writing problems and…

The plight of premedical education: myths and misperceptions--Part II: science "versus" the liberal arts.

PubMed

Brieger, G H

1999-11-01

For decades it has been known that students who major in non-science fields perform as well as science majors who go to medical school. Yet the overwhelming majority of future medical students still major in biology or chemistry, and organic chemistry has come to be the defining premedical science course. This article traces the history of the liberal arts tradition, discusses its importance for medicine, and urges that readers think about the medical college in the age of the university. The author believes that the medical faculties should take a lead in helping to reshape the premedical as well as the medical education of future doctors.

Spiral-syllabus course in wave phenomena to introduce majors and nonmajors to physics

NASA Astrophysics Data System (ADS)

Touger, Jerold S.

1981-09-01

A single course to introduce physics to both nonscience and physics majors has been developed, dealing with light, sound, and signal, transmission and reception, and emphasizing wave aspects of these phenomena. Themes such as the observational basis of physics, the progression from qualitative observation to measurement, physical models, mathematical modeling, and the utility of models in developing technology are stressed. Modes of presentation, consistent with the notion of a spiral syllabus, are explained with reference to the cognitive and educational theories of Bruner and Piaget. Reasons are discussed for choosing this subject matter in preference to Newtonian mechanics as a starting point for physics majors.

Using Computers in Introductory Astronomy Courses

NASA Astrophysics Data System (ADS)

Deming, Grace L.

1995-12-01

Computer literacy is fast becoming a focal point in undergraduate education. Scientific literacy has been a continuing goal of undergraduate programs across the nation and a course in introductory astronomy is often used to satisfy such science requirements. At U. MD an introduction to computer skills is being integrated into our astronomy curriculum for non-science majors. The campus is adequately equipped with computer labs, yet many students enter college without basic computer skills. In Astronomy 101 (General Astronomy) students are introduced to electronic mail, a Listserver, and the world wide web. Students in this course are required to register for a free campus computer account. Their first assignment is to use e-mail to subscribe to the class Listserver, Milkyway. Through Milkyway, students have access to weekly lecture summaries, questions to review for exams, and copies of previous exams. Using e-mail students may pose questions, provide comments, or exchange opinions using Milkyway, or they may e-mail the instructor directly. Studies indicate that using e-mail is less intimidating to a student than asking a question in a class of 200 students. Monitoring e-mail for student questions has not been a problem. Student reaction has been favorable to using e-mail, since instructor office hours are not always convenient, especially to commuting or working students. Through required assignments, students receive an introduction to accessing information on the world wide web using Netscape. Astronomy has great resources available on the Internet which can be used to supplement and reinforce introductory material. Assignments are structured so that students will gain the techniques necessary to access available information. It is hoped that students will successfully apply the computer skills they learn in astronomy class to their own fields and as life-long learners. We have found that students comfortable with computers are willing to share their knowledge with others. The computer activities have been structured to promote cooperation between students. These skills are also necessary for success.

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…

First Contact: Expectations of Beginning Astronomy Students

NASA Astrophysics Data System (ADS)

Lacey, T. L.; Slater, T. F.

1999-05-01

Three hundred seven undergraduate students enrolled in Introductory Astronomy were surveyed at the beginning of class to determine their expectations for course content. The course serves as a survey of astronomy for non-science majors and is a distribution course for general education core requirements. The course has no prerequisites, meets three times each week for 50 minutes, and represents three semester credit hours. The university catalog describes the course with the title "PHYSICS 101 - Mysteries of the Sky" and the official course description is: a survey of the struggle to understand the Universe and our place therein. The structure, growth, methods, and limitations of science will be illustrated using the development of astronomy as a vehicle. Present day views of the Universe are presented. Two questions were asked as open response items: What made you decide to take this course? and What do you expect to learn in this course? The reasons that students cited to take the course, in order of frequency, were: interested in astronomy, interesting or fun sounding course, required general education fulfillment, recommendation by peer. Secondary reasons cited were required for major or minor, general interest in science, and was available in the schedule. Tertiary reasons listed were recommendation by advisor or orientation leader, inflate grade point average, and heard good things about the teacher. The students' expectations about what they would learn in the course were numerous. The most common objects listed, in order of frequency, were: stars, constellations, planets, galaxies, black holes, solar system, comets, galaxies, asteroids, moon, and Sun. More interesting were the aspects not specifically related to astronomy. These were weather, atmosphere, UFOs and the unexplained, generally things in the sky. A mid-course survey suggests that students expected to learn more constellations and that the topics would be less in-depth.

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.

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…

SoSTI Course: An Elective Science Course for Thai Upper Secondary School Non-Science Students

ERIC Educational Resources Information Center

Pruekpramool, Chaninan; Phonphok, Nason; White, Orvil L.; Musikul, Kusalin

2013-01-01

This study is aimed to develop the interdisciplinary SoSTI (science of sound in traditional Thai musical instruments) course for Thai non-science upper secondary school students to study the students' attitudes toward science before and after studying from the course. The SoSTI course development is based on the interdisciplinary concept model and…

Designing Inductive Instructional Activities in a Teacher Training Program to Enhance Conceptual Understandings in Science for Thai Science and Non-Science Teachers

ERIC Educational Resources Information Center

Narjaikaew, Pattawan; Jeeravipoonvarn, Varanya; Pongpisanou, Kanjana; Lamb, Dennis

2016-01-01

Teachers are viewed as the most significant factor affecting student learning. However, research in science education showed that teachers often demonstrate misunderstandings of science very similar to students. The purpose of this research was to correct conceptual difficulties in science of Thai primary school science and non-science teachers…

Is There a Relationship between Brain Type, Sex and Motivation to Learn Science?

ERIC Educational Resources Information Center

Zeyer, Albert; Wolf, Sarah

2010-01-01

Whilst sex is considered to be one of the most significant factors influencing attitudes towards science, previous research seems to suggest that, at least in non-science classes, there is no correlation between sex and motivation to learn science. The present study investigates a mixed group of science and non-science students of upper secondary…

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.

Initial Development and Pilot Study Design of Interactive Lecture Demonstrations for ASTRO 101

NASA Astrophysics Data System (ADS)

Schwortz, Andria C.; French, D. A; Gutierrez, Joseph V; Sanchez, Richard L; Slater, Timothy F.; Tatge, Coty

2014-06-01

Interactive lecture demonstrations (ILDs) have repeatedly shown to be effective tools for improving student achievement in the context of learning physics. As a first step toward systematic development of interactive lecture demonstrations in ASTRO 101, the introductory astronomy survey course, a systematic review of education research, describing educational computer simulations (ECSs) reveals that initial development requires a targeted study of how ASTRO 101 students respond to ECSs in the non-science majoring undergraduate lecture setting. In this project we have adopted the process by which ILDs were designed, pilot-tested, and successfully implemented in the context of physics teaching (Sokoloff & Thornton, 1997; Sokoloff & Thornton, 2004). We have designed the initial pilot-test set of ASTRO 101 ILD instructional materials relying heavily on ECSs. Both an instructor’s manual and a preliminary classroom-ready student workbook have been developed, and we are implementing a pilot study to explore their effectiveness in communicating scientific content, and the extent to which they might enhance students’ knowledge of and perception about astronomy and science in general. The study design uses a pre-/post-test quasi-experimental study design measuring students’ normalized gain scores, calculated as per Hake (1998) and Prather (2009), using a slightly modified version of S. Slater’s (2011) Test Of Astronomy STandards TOAST combined with other instruments. The results of this initial study will guide the iterative development of ASTRO 101 ILDs that are intended to both be effective at enhancing student achievement and easy for instructors to successfully implement.

Modifying your Physics and Astronomy Courses to Incorporate Heliophysics - Some Examples

NASA Astrophysics Data System (ADS)

Cebulka, Rebecca; Cox, Amanda; Rodriguez Garrigues, Alvar; Hoshino, Laura; Fitzgerald, Cullen; Montgomery, M.; Al-Rawi, Ahlam N.; Velissaris, Christos; Flitsiyan, Elena

2016-01-01

Although physics and astronomy courses include heliophysics topics, students still leave the courses without knowing what heliophysics is and how heliophysics relates to their daily lives. To meet goals of NASA's Living With a Star Program, UCF Physics has modified courses such as SCALE-UP: Electricity and Magnetism for Engineers and Scientists, Astronomy (for non-science majors), and Astrophysics to include heliophysics topics. In this poster, we present the previous labs, the student-modified labs to incorporate heliophysics, and we present student learning statistics.

Teaching in the Age of Electrons

NASA Astrophysics Data System (ADS)

Impey, C. D.

2002-12-01

Technology opens up a bewildering array of opportunities and options for faculty teaching courses to large groups of non-science majors. The trick is in understanding which modes of instruction increase the engagement and learning of students. Among the tools that show good potential for advancing learning in introductory astronomy classes are virtual worlds, exercises that use real astronomy data sets, expert systems, and content accessible by phone. Some of the capabilities of a new web site to assist astronomy instructors, www.astronomica.org, will be demonstrated.

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.

Preadmission Predictors of On-time Graduation in a Doctor of Pharmacy Program.

PubMed

Allen, Rondall E; Diaz, Carroll; Gant, Kisha; Taylor, Ashley; Onor, Ifeanyi

2016-04-25

Objective. To determine which preadmission variables or combination of variables are able to predict on-time graduation in a doctor of pharmacy program. Methods. Transcripts and student files were reviewed for 460 students who entered the college between 2007 and 2009. Results. The preadmission variables with significant correlations to on-time graduation included having a prior degree, student type, the number of unsatisfactory grades (nonscience and math-science courses, and the combination), prepharmacy cumulative grade point average (GPA), and math-science GPA. Of these variables, the significant predictors of on-time graduation were prior degree, the presence of no unsatisfactory grades in nonscience courses, and prepharmacy cumulative GPA. Conclusion. Having a prior degree, lack of unsatisfactory grades in nonscience courses, and prepharmacy GPA were identified as significant predictors of on-time graduation.

Preadmission Predictors of On-time Graduation in a Doctor of Pharmacy Program

PubMed Central

Diaz, Carroll; Gant, Kisha; Taylor, Ashley; Onor, Ifeanyi

2016-01-01

Objective. To determine which preadmission variables or combination of variables are able to predict on-time graduation in a doctor of pharmacy program. Methods. Transcripts and student files were reviewed for 460 students who entered the college between 2007 and 2009. Results. The preadmission variables with significant correlations to on-time graduation included having a prior degree, student type, the number of unsatisfactory grades (nonscience and math-science courses, and the combination), prepharmacy cumulative grade point average (GPA), and math-science GPA. Of these variables, the significant predictors of on-time graduation were prior degree, the presence of no unsatisfactory grades in nonscience courses, and prepharmacy cumulative GPA. Conclusion. Having a prior degree, lack of unsatisfactory grades in nonscience courses, and prepharmacy GPA were identified as significant predictors of on-time graduation. PMID:27170814

Part I. Development of a concept inventory addressing students' beliefs and reasoning difficulties regarding the greenhouse effect, Part II. Distribution of chlorine measured by the Mars Odyssey Gamma Ray Spectrometer

NASA Astrophysics Data System (ADS)

Keller, John Michael

This work presents two research efforts, one involving planetary science education research and a second involving the surface composition of Mars. In the former, student beliefs and reasoning difficulties associated with the greenhouse effect were elicited through student interviews and written survey responses from >900 US undergraduate non-science majors. This guided the development of the Greenhouse Effect Concept Inventory (GECI), an educational research tool designed to assess pre- and post-instruction conceptual understanding of the greenhouse effect. Three versions of this multiple-choice instrument were administered to >2,500 undergraduates as part of the development and validation process. In contrast to previous research efforts regarding causes, consequences, and solutions to the enhanced greenhouse effect, the GECI focuses primarily on the physics of energy flow through Earth's atmosphere. The GECI is offered to the science education community as a research tool for assessing instructional strategies on this topic. It was confirmed that the study population subscribes to several previously identified beliefs. These include correct understandings that carbon dioxide is an important greenhouse gas and the greenhouse effect increases planetary surface temperatures. Students also commonly associate the greenhouse effect with increased penetration of sunlight into and trapping of solar energy in the atmosphere. Students intermix concepts associated with the greenhouse effect, global warming, and ozone depletion. Reinforcing the latter concept, a majority believe that the Sun radiates most of its energy as ultraviolet light. Students also describe inaccurate and incomplete trapping models, which include permanent trapping, trapping through reflection, and trapping of gases and pollution. Another reasoning difficulty involves the idea that Earth's surface radiates energy primarily during the nighttime. The second research effort describes the distribution of chlorine on Mars measured by the Mars Odyssey Gamma Ray Spectrometer (GRS). The distribution of chlorine is heterogeneous across the surface, with a concentration of high chlorine centered over the Medusa Fossae Formation. The distribution of chlorine correlates positively with hydrogen and negatively with silicon and thermal inertia. Four mechanisms (aeolian, volcanic, aqueous, and hydrothermal) are discussed as possible factors influencing the distribution of chlorine measured within the upper few tens of centimeters of the surface.

Impact of a women's program for science, mathematics and engineering on undergraduate women: Activity systems on the periphery

NASA Astrophysics Data System (ADS)

Kahveci, Ajda

National reports such as National Science Foundation's highlight women's disproportionate distribution and differential treatment in the science, mathematics, and engineering (SM&E) fields, in both education and the workforce in the US. Women are less likely than men to choose a career that involves SM&E, and are more likely than men to earn bachelor's degrees in non-science and non-engineering fields. The need for support and encouragement is obvious for women already in college intending to pursue a major in a SM&E field. Comprehensive support networks can be and are established through programs for women entering college and willing to pursue careers in SM&E fields. The context of this research was the Program for Women in Science, Engineering and Mathematics (PWISEM) established in 2001 by a Southern teaching and research university in the US. I constructed a thorough theoretical lens by interweaving the theory of situated learning/legitimate peripheral participation and the cultural-historical activity theory. I explored the interactions and contradictions that affected the science identity formation of the PWISEM students, how they identified themselves as future scientists, and the key factors PWISEM involved in motivating and supporting women students in their intended SM&E majors. The design of the research was dominant-less dominant, the dominant approach being qualitative and the less-dominant being quantitative. The Program was successful in fostering the participation and retention of undergraduate women in SM&E. However, the women in the Program were more likely to internalize the status quo in the SM&E realms without actively challenging it (liberal feminist approach). To change the masculine culture embedded in SM&E, engaging in activism is essential. This research suggests that in fact, programs like PWISEM provide promising contexts for reforming the SM&E culture to be more appealing and inclusive of all. I suggest that there can be both explicit and implicit ways of transformation within such contexts and argue that the implicit approach is more powerful. This research also informs the theory of situated learning in that newcomer interactions are a key aspect and their actions should be understood to involve much more than knowledge circulation.

Constructing Artificial Rock Outcrops as Tools for Fostering Earth and Environmental Science Thinking

NASA Astrophysics Data System (ADS)

Totten, I. M.; Hall, F.; Buxton, C.

2004-12-01

The Earth and Environmental Science Education Group at the University of New Orleans has created an innovative visualization teaching tool. Through funding made available by the National Science Foundation a 12'x10'x5' artificial rock outcrop was fabricated at the University of New Orleans. An accompanying curriculum, which includes a series of artificial rock outcrop labs, was also created for the outcrop. The labs incorporated fundamental concepts from the geosciences and the field of science education. The overarching philosophy behind the unity of the content knowledge and the pedagogy was to develop a more inclusive and deliberate teaching approach that utilized strategies known to enhance student learning in the sciences. The artificial outcrop lab series emphasized the following geoscience topics: relative dating, rock movement, and depositional environments. The series also integrated pedagogical ideas such as inquiry-based learning, conceptual mapping, constructivist teaching, pattern recognition, and contextualized knowledge development. Each component of the curriculum was purposefully designed to address what the body of research in science education reveals as critical to science teaching and learning. After developing the artificial rock outcrop curriculum a pilot study was done with 40 pre-service elementary education undergraduates. In the pilot study students completed the following assessments: three outcrop labs, journal reflections for each lab, pre/post attitude surveys, group video-recordings, and preconception and final interviews. Data from these assessments were analyzed using qualitative and quantitative methodologies. The following conclusions were revealed from the data: student's attitudes towards learning earth science increased after working with the artificial rock outcrop, students conceptual understanding of the concepts were clearer after working with the outcrop, students were able to answer multifaceted, higher order questions as a result of working with the outcrop, and students confidence in their abilities to think scientifically improved after their experience with the outcrop. The artificial rock outcrop has consequently been incorporated into several courses that have large enrollments from the following student populations: pre-service elementary education majors, undergraduate non-science majors, geology majors, and in-service MAST (Masters of Art in Science Teaching) students. Approximately, 1300 college students and 500 students in the 4th-12th grade levels from the local metropolitan school area work with the artificial rock outcrop annually. The artificial rock outcrop curriculum was a much-needed teaching tool in New Orleans considering the absence of natural rock outcrops along the entire coastal plain province.

A few ideas for teaching environmental physics

NASA Astrophysics Data System (ADS)

Forinash, Kyle

2016-11-01

Unlike a typical university physics course there is no standardised syllabus for environmental physics. The topics covered also range beyond what is normally part of the physics curriculum, requiring the instructor to become knowledgeable about fields outside of physics. Some of these issues are complex and, unlike the laws of physics, change rapidly over time. This paper, based on 15 years experience teaching undergraduate environmental physics courses, both for non-science students and for students with strong backgrounds in the sciences, attempts to present a reasonable range of concepts and educational resources which could be included in an environmental physics course or added to an existing physics course as motivation for learning traditional physics concepts. An additional goal is to warn the reader of pitfalls they may encounter in trying to include material with which they may not be familiar. The approach is different from environmental courses taught in the social sciences in that the focus of an environmental physics course is on physical constraints to environmental solutions rather than limitations imposed by culture or politics.

Planetary Exploration in the Classroom

NASA Astrophysics Data System (ADS)

Slivan, S. M.; Binzel, R. P.

1997-07-01

We have developed educational materials to seed a series of undergraduate level exercises on "Planetary Exploration in the Classroom." The goals of the series are to teach modern methods of planetary exploration and discovery to students having both science and non-science backgrounds. Using personal computers in a "hands-on" approach with images recorded by planetary spacecraft, students working through the exercises learn that modern scientific images are digital objects that can be examined and manipulated in quantitative detail. The initial exercises we've developed utilize NIH Image in conjunction with images from the Voyager spacecraft CDs. Current exercises are titled "Using 'NIH IMAGE' to View Voyager Images", "Resolving Surface Features on Io", "Discovery of Volcanoes on Io", and "Topography of Canyons on Ariel." We expect these exercises will be released during Fall 1997 and will be available via 'anonymous ftp'; detailed information about obtaining the exercises will be on the Web at "http://web.mit.edu/12s23/www/pec.html." This curriculum development was sponsored by NSF Grant DUE-9455329.

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—a fascinating subject in and of itself—I take the opportunity in the first two weeks to introduce students to basic geology, including tectonics, earth materials, surface processes, and geologic time. In fact, this is a vital segment of the class, as the students need this background for the latter portions of the class. A side benefit is that students are provided with a "mini" education in geology whether they know it or not and take this knowledge with them into other classes, and ultimately, their futures. Student satisfaction is uniformly very high with this class. 100% of students agreed that the course material was intellectually stimulating; 95% of students agreed that they learned a great deal from the course; 100% of students stated that they would recommend the class to other students. Overall, the class highlights the role that non-major introductory-level geoscience classes, in particular ones with interesting topics, can serve in educating college-level students about Earth Science. They may also serve as a gateway into the Earth Sciences for students who previously had no such inclination.

Enhancing the Educational Astronomical Experience of Non-Science Majors With the Use of an iPad and Telescope (Abstract)

NASA Astrophysics Data System (ADS)

Gill, R. M.; Burin, M. J.

2012-12-01

General Education (GE) classes are designed to broaden the understanding of all college and university students in areas outside their major interest. However, most GE classes are lecture type and do not facilitate hands-on experimental or observational activities related to the specific subject matter. Utilizing several astronomy application programs (apps), currently available for the iPad and iPhone, in conjunction with a small inexpensive telescope allows students unique hands-on experiences to explore and observe astronomical objects and concepts independently outside of class. These activities enhance the student's overall GE experience in a unique way not possible prior to the development of this technology.

Skill Development in the Psychology Major: What Do Undergraduate Students Expect?

ERIC Educational Resources Information Center

Gaither, George A.; Butler, Darrell L.

2005-01-01

The present study examined undergraduate students' expectations for how well psychology majors develop 60 skills corresponding to five of the American Psychological Association's Task Force on Undergraduate Psychology Major Competencies (APA, 2002) suggested learning goals. This study also examined where students expect psychology majors to get…

Establishing the Empirical Relationship Between Non-Science Majoring Undergraduate Learners' Spatial Thinking Skills and Their Conceptual Astronomy Knowledge. (Spanish Title: Estableciendo Una Relación Empírica Entre el Razonamiento Espacial de los Estudiantes de Graduación de Carreras no Científicas y su Conocimento Conceptual de la Astronomía.) Estabelecendo Uma Relação Empírica Entre o RacioCínio Espacial dos Estudantes de Graduação EM Carreiras Não Científicas e Seu Conhecimento Conceitual da Astronomia

NASA Astrophysics Data System (ADS)

Heyer, Inge; Slater, Stephanie J.; Slater, Timothy F.

2013-12-01

The astronomy education community has tacitly assumed that learning astronomy is a conceptual domain resting upon spatial thinking skills. As a first step to formally identify an empirical relationship, undergraduate students in a non-major introductory astronomy survey class at a mediumsized, Ph.D. granting, mid-western US university were given pre- and post-astronomy conceptual diagnostics and spatial reasoning diagnostics, Instruments used were the "Test Of Astronomy Standards" and "What Do You Know?" Using only fully matched data for analysis, our sample consisted of 86 undergraduate non-science majors. Students' normalized gains for astronomy surveys were low at .26 and .13 respectively. Students' spatial thinking was measured using an instrument designed specifically for this study. Correlations between the astronomy instruments' pre- to post-course gain scores and the spatial assessment instrument show moderate to strong relationships suggesting the relationship between spatial reasoning and astronomy ability can explain about 25% of the variation in student achievement. La comunidad de educación en astronomía ha supuesto de forma tácita que el aprendizaje de la astronomía consiste en un dominio conceptual fundamentado en el razonamiento espacial. Como un primer paso para identificar formalmente una relación empírica entre estas dos cosas, utilizamos como muestra los estudantes de graduación de carreras no científicas de un curso experimental en una universidad norteamericana del medioeste de porte mediano con programa de Doctorado em curso, en el cual estos estudiantes se sometieron a un diagnóstico de razonamiento espacial y conceptos astronómicos antes e después del mismo. Las herramientas utilizadas fueron el Test Of Astronomy Standards (TOAST) y el cuestionario What do you know? Utilizando solo los datos completamente consistentes para este análisis, nuestra muestra consistió en 86 estudantes de graduación. Las mejoras, depués de normalizadas, en el desempeño de los estudiantes en estos dos asuntos foram pequenas, 0.26 e 0.13 respectivamente. El razonamiento espacial de los estudiantes fue medido utilizando un instrumento específico desarrollado para este trabaljo. Las correlaciones entre los resultados de los tests astronómicos y este instrumento específico, antes y después del curso mostraron una relación entre moderada y fuerte, sugiriendo que la relación entre el razonamiento espacial y el conocimiento astronómico puede explicar hasta un 25% de la variación em el desempeño de los estudiantes. A comunidade da educação em astronomia tem suposto de forma implícita que o aprendizado da astronomia consiste em um domínio conceitual fundamentado no raciocínio espacial. Como um primeiro passo para identificar formalmente uma relação empírica entre estas duas coisas, utilizamos como amostra os estudantes de graduação de carreiras não científicas de um curso exploratório em uma universidade norte-americana do meio-oeste de médio porte com programa de Doutorado em andamento, onde estes estudantes foram submetidos a um diagnóstico de raciocino espacial e conceitos astronômicos antes e depois do mesmo. As ferramentas utilizadas foram o Test Of Astronomy Standards (TOAST) e o questionário What do you know? Utilizando somente dados completamente consistentes para esta análise, nossa amostra consistiu de 86 estudantes de graduação. As melhoras, depois de normalizadas, do desempenho dos estudantes nos dois quesitos foram pequenas, 0.26 e 0.13 respectivamente. O raciocínio espacial dos estudantes foi medido utilizando um instrumento específico desenhado para este trabalho. As correlações entre os resultados dos testes astronômicos e este instrumento específico antes e depois do curso mostraram uma relação entre moderada e forte, sugerindo que a relação entre o raciocínio espacial e o conhecimento astronômico pode explicar até um 25% na variação no desempenho dos estudantes.

Using Internet-Based Robotic Telescopes to Engage Non-Science Majors in Astronomical Observation

NASA Astrophysics Data System (ADS)

Berryhill, K. J.; Coble, K.; Slater, T. F.; McLin, K. M.; Cominsky, L. R.

2013-12-01

Responding to national science education reform documents calling for students to have more opportunities for authentic research experiences, several national projects have developed online telescope networks to provide students with Internet-access to research grade telescopes. The nature of astronomical observation (e.g., remote sites, expensive equipment, and odd hours) has been a barrier in the past. Internet-based robotic telescopes allow scientists to conduct observing sessions on research-grade telescopes half a world away. The same technology can now be harnessed by STEM educators to engage students and reinforce what is being taught in the classroom, as seen in some early research in elementary schools (McKinnon and Mainwaring 2000 and McKinnon and Geissinger 2002), middle/high schools (Sadler et al. 2001, 2007 and Gehret et al. 2005) and undergraduate programs (e.g., McLin et al. 2009). This project looks at the educational value of using Internet-based robotic telescopes in a general education introductory astronomy course at the undergraduate level. Students at a minority-serving institution in the midwestern United States conducted observational programs using the Global Telescope Network (GTN). The project consisted of the use of planetarium software to determine object visibility, observing proposals (with abstract, background, goals, and dissemination sections), peer review (including written reviews and panel discussion according to NSF intellectual merit and broader impacts criteria), and classroom presentations showing the results of the observation. The GTN is a network of small telescopes funded by the Fermi mission to support the science of high energy astrophysics. It is managed by the NASA E/PO Group at Sonoma State University and is controlled using SkyNet. Data includes course artifacts (proposals, reviews, panel summaries, presentations, and student reflections) for six semesters plus student interviews. Using a grounded theory approach, the data were coded to examine the value that the students did or did not gain from the project, including students' understanding of the process of science. Preliminary analysis of course artifacts and interviews suggest that students value using research-grade instrumentation after obtaining their own scientific data and develop deeper understandings of the nature of scientific research when formulating proposals for telescope use.

A Faculty Workshop Model to Integrate Climate Change across the Curriculum

NASA Astrophysics Data System (ADS)

Teranes, J. L.

2017-12-01

Much of the growing scientific certainty of human impacts on the climate system, and the implications of these impacts on current and future generations, have been discovered and documented in research labs in colleges and universities across the country. Often these institutions also take decisive action towards combatting climate change, by making significant reductions in greenhouse emissions and pledging to greater future reductions. Yet, there are still far too many students that graduate from these campuses without an adequate understanding of how climate change will impact them within their lifetimes and without adequate workforce preparation to implement solutions. It may be that where college and universities still have the largest influence on climate change adaption and mitigation is in the way that we educate students. Here I present a curriculum workshop model at UC San Diego that leverages faculty expertise to infuse climate change education across disciplines to enhance UC San Diego students' climate literacy, particularly for those students whose major focus is not in the geosciences. In this model, twenty faculty from a breadth of disciplines, including social sciences, humanities, arts, education, and natural sciences participated in workshops and developed curricula to infuse aspects of climate change into their existing undergraduate courses. We particularly encouraged development of climate change modules in courses in the humanities, social sciences and arts that are best positioned to address the important human and social dimensions of climate change. In this way, climate change content becomes embedded in current course offerings, including non-science courses, to increase climate literacy among a greater number and a broader cross-section of students.

Crystallographic education in the 21st century

PubMed Central

Gražulis, Saulius; Sarjeant, Amy Alexis; Moeck, Peter; Stone-Sundberg, Jennifer; Snyder, Trevor J.; Kaminsky, Werner; Oliver, Allen G.; Stern, Charlotte L.; Dawe, Louise N.; Rychkov, Denis A.; Losev, Evgeniy A.; Boldyreva, Elena V.; Tanski, Joseph M.; Bernstein, Joel; Rabeh, Wael M.; Kantardjieff, Katherine A.

2015-01-01

There are many methods that can be used to incorporate concepts of crystallography into the learning experiences of students, whether they are in elementary school, at university or part of the public at large. It is not always critical that those who teach crystallography have immediate access to diffraction equipment to be able to introduce the concepts of symmetry, packing or molecular structure in an age- and audience-appropriate manner. Crystallography can be used as a tool for teaching general chemistry concepts as well as general research techniques without ever having a student determine a crystal structure. Thus, methods for younger students to perform crystal growth experiments of simple inorganic salts, organic compounds and even metals are presented. For settings where crystallographic instrumentation is accessible (proximally or remotely), students can be involved in all steps of the process, from crystal growth, to data collection, through structure solution and refinement, to final publication. Several approaches based on the presentations in the MS92 Microsymposium at the IUCr 23rd Congress and General Assembly are reported. The topics cover methods for introducing crystallography to undergraduate students as part of a core chemistry curriculum; a successful short-course workshop intended to bootstrap researchers who rely on crystallography for their work; and efforts to bring crystallography to secondary school children and non-science majors. In addition to these workshops, demonstrations and long-format courses, open-format crystallographic databases and three-dimensional printed models as tools that can be used to excite target audiences and inspire them to pursue a deeper understanding of crystallography are described. PMID:26664347

Capturing Student Interest in Astrobiology through Dilemmas and Paradoxes

NASA Astrophysics Data System (ADS)

Slater, T. F.

2005-12-01

Traditionally, many non-science majoring undergraduates readily reveal fairly negative opinions about their introductory science survey courses that serve as general education distribution requirements. Often seen as unimportant and unrelated to helping them acquire knowledge and skills for the workplace, such general education courses carry nicknames such as "Physics for Poets" (PHYSICS101), "Bugs for Thugs" (BIOLOGY101), "Rocks for Jocks" (GEOLOGY101), and "Moons for Goons" or "Scopes for Dopes" (ASTRONOMY101). In response, many faculty are experimenting with more modern science course offerings as general education courses in an effort to improve students' attitudes, values, and interests. One might think that ASTROBIOLOGY has natural curb appeal for students. However, despite the seemingly innate appeal of a course on extraterrestrial life, when it comes right down to it, an astrobiology course is still a natural science course at its core. As such, it can suffer from the same student apathy that afflicts traditional science courses if students can not find some personal relevance or interest in the topics. One approach to more fully engaging students is to couch core course concepts in terms of what Grant Wiggin and Jay McTighe (2004, 2000) call "essential questions." Essential questions are intended create enduring understanding in students and help students find deeply meaningful personal relevance to concepts. In response, we have created a series of probing essential questions that tie central concepts in astrobiology to dilemmas, paradoxes, and moral questions with the goal of intellectually engaging our students in the human-side of the astrobiology enterprise.

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 data will be gathered and analyzed to show the effectiveness of moving beyond traditional laboratory teaching methods to methods that require and promote deeper learning and retaining of content. Qualitative data will be based upon the engagement of the students, the deeper level of questioning, the engagement of the faculty, among others. The data will be acquired through the use of personal responses and end of course surveys. For the Spring 2009 semester, the department will develop a more quantitative means of assessment by integrating a pre- and post-survey for this course as well as the traditionally-taught introductory course. Acquisition of knowledge and depth of knowledge by the students from both types of courses will be obtained and compared for assessing effectiveness of this teaching strategy in a laboratory setting. This data will encourage the faculty teaching Environmental Geology Labs as well as the standard introductory labs to redesign the remaining lab courses. In addition, the method used here may serve as a model for laboratory courses in other disciplines.

Results from Two Years of Web-Based Astronomy Teaching

NASA Astrophysics Data System (ADS)

Wallin, J.

1996-12-01

During the last two years, course notes, supplemental material, bulletin boards, and an interactive quiz system have been developed for the introductory astronomy course at George Mason University. In this talk, I will present results about the level of Web literacy, Web usage, and educational effectiveness of this system based on in-class surveys and test results. The results presented are based on a 300 person survey course composed primarily of non-science majors. Although this course currently includes a lecture section, we plan to offer this as a web-based distance learning course within six months.

Physlets and Web-based Physics Curricular Material

NASA Astrophysics Data System (ADS)

Cain, L. S.; Boye, D. M.; Christian, W.

1998-11-01

The WWW provides the most uniformly standardized and stable mode of networked information sharing available to date. Physlets, scriptable Java applets specific to physics pedagogy, provide the source around which interactive exercises can be created across the physics curriculum. We have developed WWW-based curricular materials appropriate for courses at the introductory and intermediate level. These include interactive demonstrations, homework assignments, pre-lab and post-lab exercises. A variety of examples, which have been used in courses in musical technology, general physics, physics for non-science majors, and modern physics, will be discussed.

More dialectical thinking, less creativity? The relationship between dialectical thinking style and creative personality: the case of China.

PubMed

Liu, Hui; Wang, Fei-xue; Yang, Xiao-yang

2015-01-01

People use dialectical thinking to be holistic, reconcile contradictions, and emphasize changes when processing information and managing problems. Using a questionnaire survey, this study examined the relationship between dialectical thinking and creative personality in the Chinese culture, which encourages a holistic and collective thinking style. Undergraduates majoring in different subjects and adults in different professions were surveyed. The results showed that 1) compared with undergraduates majoring in art and adults from the design industry, undergraduates majoring in other disciplines significantly showed the least creative personality; 2) the highest score for dialectical thinking was found in the group of undergraduates who majored in other disciplines, followed by the adult group, and the undergraduates majoring in art had the lowest score; and 3) A negative relationship between dialectical thinking and creative personality was found mostly in the UMA group. The limitations of this study and suggestions for future research are discussed.

Guidelines for the undergraduate psychology major: Version 2.0.

PubMed

2016-01-01

The APA Guidelines for the Undergraduate Psychology Major: Version 2.0 (henceforth Guidelines 2.0; APA, 2013) represents a national effort to describe and develop high-quality undergraduate programs in psychology. The task force charged with the revision of the original guidelines for the undergraduate major examined the success of the document's implementation and made changes to reflect emerging best practices and to integrate psychology's work with benchmarking scholarship in higher education. Guidelines 2.0 abandoned the original distinction drawn between psychology-focused skills and psychology skills that enhance liberal arts development. Instead, Guidelines 2.0 describes five inclusive goals for the undergraduate psychology major and two developmental levels of student learning outcomes. Suggestions for assessment planning are provided for each of the five learning goals. (c) 2016 APA, all rights reserved).

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%, indicating that the non-majors tested exhibited many Earth science misconceptions and conceptual difficulties. A number of significant results were found when independent t-tests and correlations were conducted among test scores and demographic variables. The number of previous university Earth science courses was significantly related to ESC scores. Preservice elementary/middle majors differed significantly in several ways from other non-majors, and several earlier results were not supported. Results of this study indicate that an important opportunity may exist to improve Earth science conceptual understanding by focusing on spatial ability, a cognitive ability that has heretofore not been directly addressed in schools.

Assessing Attitudes Towards Science During an Adaptive Online Astrobiology Course: Comparing Online and On-Campus Undergraduates

NASA Astrophysics Data System (ADS)

Perera, Viranga; Mead, Chris; Buxner, Sanlyn; Horodyskyj, Lev; Semken, Steven; Lopatto, David; Anbar, Ariel

2016-10-01

General-education Science, Technology, Engineering, and Mathematics (STEM) courses are accepted as essential to a college education. An often cited reason is to train a scientifically literate populace who can think critically and make informed decisions about complex issues such as climate change, health care, and atomic energy. Goals of these STEM courses, therefore, go beyond content knowledge to include generating positive attitudes towards science, developing competence in evaluating scientific information in everyday life and understanding the nature of science. To gauge if such non-content learning outcomes are being met in our course, an online astrobiology course called Habitable Worlds, we administered the Classroom Undergraduate Research Experience (CURE) survey to students. The survey was administered before and after completion of the course for three semesters starting with the Fall 2014 semester and ending with the Fall 2015 semester (N = 774). A factor analysis indicated three factors on attitudes: toward science education, toward the interconnectedness of science with non-science fields, and toward the nature of science. Here we present some differences between students enrolled in online degree programs (o-course) and those enrolled in traditional undergraduate programs (i-course). While mean course grades were similar, changes in attitudes toward science differ significantly between o-course and i-course students. The o-course students began the course with more positive attitudes across all three factors than the i-course students. Their attitudes toward science education improved during the course, while the i-course students showed no change. Attitudes toward the other two factors declined in both populations during the course, but declines were smaller among o-course students. These differences may indicate lesser intrinsic motivation among the i-course students. The CURE survey has not been used before in an online course; therefore, we will continue to examine factor analysis, student interviews, and expert review data to validate it for online science courses.

GMAT Scores of Undergraduate Economics Majors

ERIC Educational Resources Information Center

Nelson, Paul A.; Monson, Terry D.

2008-01-01

The average score of economics majors on the Graduate Management Admission Test (GMAT) exceeds those of nearly all humanities and arts, social sciences, and business undergraduate majors but not those of most science, engineering, and mathematics majors. (Contains 1 table.)

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/

Identifying mediating factors of moral reasoning in science education

NASA Astrophysics Data System (ADS)

Zeidler, Dana L.; Schafer, Larry E.

The purpose of this research was to examine how science content knowledge, moral reasoning ability, attitudes, and past experiences mediate the formation of moral judgments on environmental dilemmas. The study was conducted in two phases using environmental science majors and nonscience majors of college age. Phase One determined if environmental science majors exhibited higher levels of moral reasoning on nontechnical environmental social issues than on general social issues and examined the extent to which possible mediating factors accounted for differences in moral reasoning. Phase Two was qualitative in nature, the purpose of which was to observe and identify trends in conversations between subjects as to how certain mediating factors are revealed as people form moral judgments. The framework on which this study was constructed incorporates a progressive educational position; a position that views science education as being interdisciplinary, and a social means to a social end.

Impact of field of study, college and year on calculation of cumulative grade point average.

PubMed

Trail, Carla; Reiter, Harold I; Bridge, Michelle; Stefanowska, Patricia; Schmuck, Marylou; Norman, Geoff

2008-08-01

A consistent finding from many reviews is that undergraduate Grade Point Average (uGPA) is a key predictor of academic success in medical school. Curiously, while uGPA has established predictive validity, little is known about its reliability. For a variety of reasons, medical schools use different weighting schemas to combine years of study. Additional concerns relate to the equivalence of grades obtained from different fields of study and institutions, with little hard data to guide conclusions. At the Michael G. DeGroote School of Medicine Class of 2007 at McMaster University, every undergraduate grade of 2,138 applicants, along with field of study and post-secondary educational institution, was analyzed. Individual grades were aggregated into an overall uGPA using published algorithms from several medical school, and correlated with a non-weighted sum. Correlations of the different schemas with equal weights ranged from 0.973 to 0.990. The extent of the difference between fields of study was small, accounting for only 1.5% of the variance. However, differences among 16 Ontario universities were larger, and accounted for 9.3% of the variance. The results of this study suggest that all weighting schemas are virtually equivalent, making any formulation reasonable. Differences by field of study are small, but do not show any bias against non-science students. Differences by institution are larger, amounting to a range in average score from 78.7 to 84.6; however it is not clear whether this reflects candidate ability or institutional policy, so attempts to correct for institution may be difficult.

"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.

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.

The Effects of Virtual Versus Physical Lab Manipulatives on Inquiry Skill Acquisition and Conceptual Understanding of Density

NASA Astrophysics Data System (ADS)

Brinson, James R.

The current study compared the effects of virtual versus physical laboratory manipulatives on 84 undergraduate non-science majors' (a) conceptual understanding of density and (b) density-related inquiry skill acquisition. A pre-post comparison study design was used, which incorporated all components of an inquiry-guided classroom, except experimental mode, and which controlled for curriculum, instructor, instructional method, time spent on task, and availability of reference resources. Participants were randomly assigned to either a physical or virtual lab group. Pre- and post-assessments of conceptual understanding and inquiry skills were administered to both groups. Paired-samples t tests revealed a significant mean percent correct score increase for conceptual understanding in both the physical lab group (M = .103, SD = .168), t(38) = -3.82, p < .001, r = .53, two-tailed, and the virtual lab group (M = .084, SD = .177), t(44) = -3.20, p = .003, r = .43, two-tailed. However, a one-way ANCOVA (using pretest scores as the covariate) revealed that the main effect of lab group on conceptual learning gains was not significant, F(1, 81) = 0.081, p = .776, two-tailed. An omnibus test of model coefficients within hierarchical logistic regression revealed that a correct response on inquiry pretest scores was not a significant predictor of a correct post-test response, chi 2(1, N = 84) = 1.68, p = .195, and that when lab mode was added to the model, it did not significantly increase the model's predictive ability, chi2(2, N = 84) = 1.95, p = .377. Thus, the data in the current study revealed no significant difference in the effect of physical versus virtual manipulatives when used to teach conceptual understanding and inquiry skills related to density.

More Dialectical Thinking, Less Creativity? The Relationship between Dialectical Thinking Style and Creative Personality: The Case of China

PubMed Central

Liu, Hui; Wang, Fei-xue; Yang, Xiao-yang

2015-01-01

People use dialectical thinking to be holistic, reconcile contradictions, and emphasize changes when processing information and managing problems. Using a questionnaire survey, this study examined the relationship between dialectical thinking and creative personality in the Chinese culture, which encourages a holistic and collective thinking style. Undergraduates majoring in different subjects and adults in different professions were surveyed. The results showed that 1) compared with undergraduates majoring in art and adults from the design industry, undergraduates majoring in other disciplines significantly showed the least creative personality; 2) the highest score for dialectical thinking was found in the group of undergraduates who majored in other disciplines, followed by the adult group, and the undergraduates majoring in art had the lowest score; and 3) A negative relationship between dialectical thinking and creative personality was found mostly in the UMA group. The limitations of this study and suggestions for future research are discussed. PMID:25856372

The Emergence of Undergraduate Majors in Global Health: Systematic Review of Programs and Recommendations for Future Directions

PubMed Central

Drain, Paul K.; Mock, Charles; Toole, David; Rosenwald, Anne; Jehn, Megan; Csordas, Thomas; Ferguson, Laura; Waggett, Caryl; Obidoa, Chinekwu; Wasserheit, Judith N.

2017-01-01

Global health education has been expanding rapidly and several universities have created an undergraduate major degree (bachelor's degree) in global heath or global health studies. Because there are currently no national guidelines for undergraduate degrees in global health, each of these programs was developed along individual lines. To guide the development of future global health majors, we conducted a systematic review of undergraduate majors in global health. We identified eight programs and invited program directors or representatives to a symposium at the Consortium of Universities for Global Health 2016 conference to review their existing undergraduate major in global health and to discuss lessons learned and recommendations for other colleges and universities seeking to develop undergraduate degrees in global health. We noted significant diversity among the existing programs in terms of required courses, international field experiences, and thesis research projects. In this review, we describe these global health programs, their student characteristics, as well as the key educational competencies, program requirements, and core global health courses. Based on program reviews and discussions, we identify seven recommendations for the development and expansion of an undergraduate major in global health and discuss issues that have arisen in the curricular development of these programs that warrant further exploration. As the field of global health education continues to expand, following these students after graduation will be essential to ensure that the degree programs in global health both meet student needs and launch students on viable career pathways. PMID:28077739

Evidence for anecdotes: Examining use of stories in introductory biology courses with a mixed-methods approach

NASA Astrophysics Data System (ADS)

Kreps, Jennifer Susan

2005-11-01

Instructional stories can be an effective way to teach science concepts. However, research has not examined the extent to which stories are being used, and how they are received. More research on the use of story in biology classes may lead to more conscious use of story by instructors, which may lead to a better understanding of biological concepts by students. The purpose of this study was to examine how instructors and students use stories in university introductory biology courses, and the degree to which these stories are perceived to be effective. To examine this phenomenon, a nationwide instructor survey, a university-wide student survey, and multiple case studies were used. Two case studies included observation of lectures, interviews with (36) students, and interviews with instructors (4) over two semesters of an organismal biology course. Instructor survey participants (N = 78) were gathered by posting email invitations, and student survey participants (N = 260) were volunteers from introductory biology courses at a middle-sized university. Several types of stories were observed, including personal experience stories, historical anecdotes, and "you" stories. Students reported increased affective learning when stories were told, and remembered mostly humorous stories. In the instructor survey, no significant differences emerged between genders, type of biology taught, or communicator style and instructional story frequency. However, reports of personal experience story frequency did increase significantly (p < .01) with teaching experience, until 26 years of teaching, when it declined. The student survey uncovered no significant differences in story use by gender or ethnicity, although non-science majors reported that their instructors used stories significantly more frequently (p < .01) than did science majors. Simultaneous-entry multiple regression analyses indicated that there was a significant positive relationship between story use and cognitive and affective learning for all groups of students. Story use was a significant predictor of perceived learning loss for non-science majors, but not for science majors. The researcher suggests that stories can be an effective tool to teach biology, particularly if the instructor is aware of her audience and uses stories primarily to help students understand how concepts are related to "real life."

Project-Based Learning as a Vehicle for Teaching Science at the University Level

NASA Astrophysics Data System (ADS)

Courtney, A. R.; Wade, P.

2012-12-01

In a typical science course learning is teacher directed. Students are presented with knowledge and concepts via textbooks and lecture and then given the opportunity to apply them. Project-based learning (PBL) creates a context and reason to learn information and concepts. In PBL, learning is student directed and teacher facilitated. Students take ownership of their learning by finding, evaluating and synthesizing information from a variety of resources and via interaction between each other. In PBL, the project is central rather than peripheral to the curriculum. It is not just an activity that provides examples, additional practice or applications of the course content, but rather, the vehicle through which major concepts are discovered. The PBL process requires students to do revision and reflection encouraging them to think about what and how they are learning. PBL projects also allow students to develop important life-work skills such as collaboration, communication and critical thinking within the discipline. We have employed PBL in both Liberal Arts courses for non-science majors and upper division courses for science students. Three examples will be discussed. The first will be the production of video documentaries in a non-science major course; the second, a student generated electronic textbook in a 300-level energy course for science students; and lastly, a student designed analysis project in a chemistry major capstone laboratory course. The product in each of these examples was used to deliver knowledge to others in the class as well as members of the public providing motivation for students to do high-quality work. In our examples, student documentaries are publicly screened as part of a university-wide Academic Excellence Showcase; the student generated electronic textbook is available for public use on the internet; and the results of the student designed analysis were communicated to the real-world clients via letters and reports. We will discuss various technology tools employed in these projects such as the internet, wikis for collaborative writing, bookmarking management tools for sharing literature resources, photo sharing sites, and electronic literature searching tools. Also described will be assessment methods to gauge how the projects affected student learning.

Evolution of Physical Education Undergraduate Majors in Higher Education in China

ERIC Educational Resources Information Center

Jiahong, Wang; Xiang, Ping; Dazhi, Zhang; Liu, Weidong; Gao, Xiaofeng

2017-01-01

Physical education (PE) undergraduate programs in higher education in China have evolved over the last 100 years. As a result, a comprehensive system of physical education undergraduate majors in higher education has been established in today's colleges/universities in China. The large number of students who have completed a physical education…

Creativity, Diversity, and Integration: Radical Change in the Bachelor of Music Curriculum

ERIC Educational Resources Information Center

Myers, David E.

2016-01-01

During 2013-2014, the Task Force on the Undergraduate Music Major of the USA's College Music Society prepared a report entitled "Transforming Music Study from its Foundations: A Manifesto for Progressive Change in the Undergraduate Preparation of Music Majors." The report is a call for increased relevance in undergraduate music studies…

Chladni Patterns on Drumheads: A ``Physics of Music'' Experiment

NASA Astrophysics Data System (ADS)

Worland, Randy

2011-01-01

In our "Physics of Music" class for non-science majors, we have developed a laboratory exercise in which students experiment with Chladni sand patterns on drumheads. Chladni patterns provide a kinesthetic, visual, and entertaining way to illustrate standing waves on flat surfaces and are very helpful when making the transition from one-dimensional systems, such as string and wind instruments, to the two-dimensional membranes and plates of the percussion family. Although the sand patterns attributed to Ernst Florens Friedrich Chladni (1756-1827) are often demonstrated for this purpose using metal plates,2-4 the use of drumheads offers several pedagogical and practical advantages in the lab.

The Role of Grade Sensitivity in Explaining the Gender Imbalance in Undergraduate Economics

ERIC Educational Resources Information Center

Rask, Kevin; Tiefenthaler, Jill

2008-01-01

There is a gender imbalance in undergraduate economics departments with most departments educating a strong majority of young men. This imbalance has led many economists to ponder the question of why relatively few women choose to take courses and major in economics. Our hypothesis is that the gender imbalance in undergraduate economics,…

Going from lectures to expeditions: Creating a virtual voyage in undergraduate ocean science education

NASA Astrophysics Data System (ADS)

Reed, D.; Garfield, N.; Locke, J.; Anglin, J.; Karl, H.; Edwards, B.

2003-04-01

The WWW provides for new collaborations in distributed learning in higher education. The lead author has developed a highly successful online course at the undergraduate level with an enrollment of more than 300 non-science majors each year, We are currently initiating a new focus for the course by emphasizing sea-going research, primarily in the northeastern Pacific Ocean, through the development of a virtual oceanographic voyage over the WWW. The "virtual voyage" courseware combines elements of experiential learning with anytime, anywhere access of the WWW to stimulate inquiry-based learning in the ocean sciences. The first leg of the voyage is currently being synthesized from contemporary ocean research sponsored by a collaboration of U.S. government agencies, including NSF, NOAA, and the USGS. The initial portion of this effort involves transforming portions of USGS Circular 1198, Beyond the Golden Gate -- Oceanography, Geology, Biology, and Environmental Issues in the Gulf of the Farallones, into an interactive expedition by which students participate as scientists aboard a research vessel departing from San Francisco. Virtual experiments on the voyage are patterned after research cruises over the past decade in two national marine sanctuaries and include the technologies of data acquisition and data analysis, as well as providing insight into the methodologies of working marine scientists. Real-time data for monitoring the marine environment are embedded into several modules; for example, students will analyze data from offshore buoys and satellite imagery to assess ocean conditions prior to departing from port. Multibeam sonar is used to create seafloor maps near the Golden Gate Bridge and sediment cores provide evidence of sea-level change in the region. Environmental studies in the region include locating canisters of low-level radioactive waste and assessing potential sites for the disposal for dredged materials from the San Francisco Bay. Upon completion of these studies, the voyage turns northward to examine the seismic potential of the Cascadia subduction zone and hydrothermal vent communities on the Juan de Fuca Ridge. Although the project takes advantage of the natural interest of students in California through a geographic focus, it may also serve as a template for creating similar learning environments based elsewhere in the world.

Matrix scientist in a matrix organization

DOE Office of Scientific and Technical Information (OSTI.GOV)

Shults, W.D.; Roseberry, L.M.

We believe that the current training in analytical chemistry is quite good considering the multitude of objectives and limitations involved. Eventually we will have to come to grips with the question, Do we want a liberal sciences degree that extends over four years and encompasses essentially diverse training in the sciences at the expense of nonscience courses, or do we want to move to a five year program wherein the undergraduate student gets both liberal arts and liberal sciences training. Our experience suggests that PhD-level students benefit markedly from formal training. We would suggest that seminars at all levels bemore » used to acquaint students with the basics and language of other scientific disciplines so that they, as professionals, will be better prepared to communicate with people in the other disciplines. We suggest that curricula retain the laboratory experience and emphasize chemistry by objective. Students mature when they are part of a project with an objective that he or she can relate to. They learn to see the whole problem and to choose the optimum way to approach it. This fosters professionalism. That's the bottom line. We all want curricula that produces well-rounded, competent professionals in analytical chemistry.« less

Enhancing introductory hydrology curriculum by integrating perspectives from multi-disciplinary graduate fields of study

NASA Astrophysics Data System (ADS)

Arnold, T. E.; Henson, W.; Reijo, C. J.; Laing, J.; Weinkam, G.

2015-12-01

A cross-disciplinary hydrology course was developed that combined field and classroom based techniques to educate undergraduate level students on issues related to water resources in Florida, USA. Six instructors from separate departments brought a different perspective, research experience, and view on water quality and quantity issues. The course progressed by examining hydrologic processes at different spatio-temporal scales beginning with the geologic scale (the formation of aquifers) and ending with present-day water management and policy concerns. We were challenged to introduce students from various academic backgrounds and levels to the core concepts of hydrology and water chemistry. Additionally, the instructors faced the task of making our research fit together seamlessly, such that one topic would naturally progress to the next topic. We ensured that students' knowledge progressed enough so they could address complex management issues through critical thinking and application of basic field techniques. It is our objective to share the experiences and challenges in developing an interdisciplinary course that: 1) introduced new research ideas and concepts from six separate fields, 2) enhanced lecture concepts by hands-on, field-based activities, and 3) would keep students from science and non-science backgrounds engaged and challenged but not overwhelmed.

Why Do Undergraduate Marketing Majors Select Marketing as a Business Major? Evidence from Australasia

ERIC Educational Resources Information Center

Pappu, Ravi

2004-01-01

This research examines the reasons behind marketing majors' decision to select marketing as a major, where students have the option to select more than one major toward their undergraduate degree. Results of surveys conducted at two universities, one in Australia and one in New Zealand, provide some new findings as well as extending findings from…

``I Didn't Realize that Science Could Be So Useful'': Integrating Service Learning and Student Research on Water-Quality Issues within an Undergraduate Geoscience Curriculum (Invited)

NASA Astrophysics Data System (ADS)

Lea, P. D.; Urquhart, J.

2010-12-01

The title quote, from a senior geoscience major, illustrates one of the important aspects of service learning. The associated authentic research experiences benefit not only learning of geoscience concepts, but also students’ perceptions of the role of science in society. For the past two years, a wide-ranging study of water-quality dynamics in the Androscoggin Lake watershed of Maine has engaged (1) introductory students and non-science majors in spring-semester courses, (2) upper-level geoscience majors in fall-semester courses, and (3) seniors undertaking independent summer research. The overall focus of the research is to understand nutrient loading to Androscoggin Lake, which receives back-flooded water from the industrialized Androscoggin River, as well as from agricultural lands in the connecting Dead River valley. Stakeholders include the local lake association, the state DEP, pulp-mill and wastewater-plant operators, and local farmers. A key element in the project is the role adopted by the student researchers vis-à-vis policy options. Following the taxonomy of Pielke (2007, The Honest Broker: Cambridge University Press), students doing service learning may serve as issue advocates, seeking to provide scientific support for the policy positions of community partners. In contrast, we have adopted explicitly the position of honest brokers who seek to understand and communicate the workings of this complex system without advocating specific policy solutions. This approach has facilitated buy-in from a larger range of stakeholders, and encouraged students to address choices in the roles and responsibilities of scientists in policy decisions—a valuable perspective for future scientists and non-scientists alike. In service-learning courses, groups of 3 to 5 students engage in a variety of sub-projects, such as lake-bottom sediment studies, nutrient sampling in streams and lakes, developing rating curves for streamflow, and calculating phosphorus fluxes during runoff events. Engaging students year-round has a number of benefits, including continuity with community partners, being able to assess seasonal controls in water-quality dynamics and to capture significant runoff events, and exposing students to different aspects of the complex system over time. Supporting such student engagement is costly in terms of instructor time, especially for introductory students, who collect enough data to feel “ownership” but are provided with additional data so as to have an adequate basis for conclusions relevant to stakeholders. Strategies for providing these additional data include (1) regular (e.g., weekly) “snapshot sampling” by undergraduate interns, and (2) automated dataloggers and samplers obtained from external funding for curriculum development. Students assume increasing independence and time commitment to the project as they progress through the curriculum, building upon their prior experiences. Along the way, they learn authentic lessons both on how scientific knowledge is developed, and on how that knowledge is communicated to the benefit of diverse stakeholders in the community.

A Response to "BIO 2010: Transforming Undergraduate Education for Future Research Biologists," from the Perspective of the Biochemistry and Molecular Biology Major Program at Kenyon College

ERIC Educational Resources Information Center

Slonczewski, Joan L.; Marusak, Rosemary

2004-01-01

The National Research Council completed a major study of undergraduate biology education, "BIO 2010-Transforming Undergraduate Education For Future Research Biologists (BIO 2010)," funded by the Howard Hughes Medical Institute and the National Institutes of Health. The "BIO 2010" report recommends that biology pedagogy should use an…

Major Re-Selection Advising and Academic Performance

ERIC Educational Resources Information Center

McKenzie, Deborah; Tan, Tony Xing; Fletcher, Edward C.; Jackson-Williams, Andrea

2017-01-01

We sought to determine whether receiving major re-selection (MRS) advising benefits undergraduate students' grade-point averages (GPAs). We used a quasi-experimental nonequivalent control group design to compare a treatment group (n = 219) of undergraduates who changed their majors after receiving MRS advising with a control group (n = 206) who…

The blind spot: re-educating ourselves about visual images

NASA Astrophysics Data System (ADS)

Farkas, N.; Donnelly, K. M.; Henriksen, P. N.; Ramsier, R. D.

2004-05-01

A simple blind spot activity has been devised to help students discard misconceptions about image formation by lenses. Our hands-on experiment, in which students determine the location and size of their blind spots, is suitable for various age groups at different educational levels. The activity provides an opportunity to teach students how to measure objects indirectly using triangles and encourages them to think about the number of measurements needed to gain confidence in a value. It also gives teachers another interesting experiment in which to discuss the nature of uncertainties and how to deal with them. Student responses to the activity, performed with pre-engineering students and non-science majors, are discussed.

Cosmos in the Classroom 2004: A Hands-on Conference on Teaching Astro 101

NASA Astrophysics Data System (ADS)

Dokter, E. F. C.; Fraknoi, A.; Waller, W.

2004-12-01

In July, the Astronomical Society of the Pacific and the New England Space Science Initiative in Education hosted "Cosmos in the Classroom", a 3-day conference at Tufts University devoted to the teaching of introductory astronomy for non-science majors. About 200 instructors from around the country attended from a broad range of institutions (including many community colleges), with a significant fraction indicating that this was their first ever astronomy meeting. This poster describes the conference and reports the results of two surveys completed by participants that can be used to inform future such symposia and discussions. A thick volume of teaching materials and papers from the conference is available through the ASP.

I'll Tell You What You Think: An Exercise in Pseudoscience Debunking in an Introductory Astronomy Course

NASA Astrophysics Data System (ADS)

Caton, Dan

2013-11-01

At Appalachian State University students have to take just two semesters of a physical or biological science to satisfy the general education requirements. Most non-science major students have little time in their crowded schedules to take additional science courses, whether they want to or not, and in fact face a surcharge when taking more courses than needed to graduate. Given this environment, it is essential that we cover more than just the basics of one particular discipline, like astronomy in my case. We should teach something about the overall philosophy of science, the scientific method, and the importance of science in our lives.

Joint Task Force on Undergraduate Physics Programs

NASA Astrophysics Data System (ADS)

This session will focus on the guidelines and recommendations being developed by the APS/AAPT Joint Task Force on Undergraduate Physics Programs. J-TUPP is studying how undergraduate physics programs might better prepare physics majors for diverse careers. The guidelines and recommendations will focus on curricular content, flexible tracks, pedagogical methods, research experiences and internships, the development of professional skills, and enhanced advising and mentoring for all physics majors.

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 democracy that encourages the critical engagement of and opposition to scientific knowledge and the state.

Older Undergraduate English Majors and Their Self-Described Value of English

ERIC Educational Resources Information Center

Price, Joseph W.

2013-01-01

The purpose of this multiple case study was to develop an understanding of what older nontraditional undergraduate English majors voiced as the challenges, attributes, and promises concerning their choice of that academic major. Ten participants took part in this study; these were students enrolled during the Spring 2012 semester as English majors…

Disciplinary Categories, Majors, and Undergraduate Academic Experiences: Rethinking Bok's "Underachieving Colleges" Thesis

ERIC Educational Resources Information Center

Brint, Steven; Cantwell, Allison M.; Saxena, Preeta

2012-01-01

Using data from the 2008 University of California Undergraduate Experience Survey, we show that study time and academic conscientiousness were lower among students in humanities and social science majors than among students in science and engineering majors. Analytical and critical thinking experiences were no more evident among humanities and…

Do Nondomestic Undergraduates Choose a Major Field in Order to Maximize Grade Point Averages?

ERIC Educational Resources Information Center

Bergman, Matthew E.; Fass-Holmes, Barry

2016-01-01

The authors investigated whether undergraduates attending an American West Coast public university who were not U.S. citizens (nondomestic) maximized their grade point averages (GPA) through their choice of major field. Multiple regression hierarchical linear modeling analyses showed that major field's effect size was small for these…

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…

“Pretty Pictures” with the HDI

NASA Astrophysics Data System (ADS)

Buckner, Spencer L.

2017-01-01

The Half-Degree Imager (HDI) has been in use on the 0.9-m WIYN telescope since October 2013. The instrument has well served the consortium as evidenced by the posters in this session and presentations at the concurrent special session held at this meeting. One thing that has been missing from the mix are aesthetically pleasing images for use in publicity and public outreach. Making “pretty pictures” with a scientific instrument such as HDI presents a number of challenges and opportunities. The chief challenge is finding the time to do the basic imaging given the limited telescope time available to users. Most users are understandably reluctant to take time away from imaging for their scientific research to take images whose primary purpose is to make a pretty picture. Fortunately, imaging of some objects to make pretty pictures can be done under sky conditions that are less than ideal when photometric studies would have limited usefulness. Another challenge is the raw HDI images must be converted from an extended FITS format into a normal FITS and a filter line added to the header to make the images usable by most commercially available image processing software. On the plus side, pretty picture images can serve to inspire prospective students into astronomy. Austin Peay State University has a popular astrophotography class that makes use of images taken with the HDI camera to introduce students to basic image processing techniques. The course is taken by both physics majors on the astrophysics track and non-science majors completing the astronomy minor. Pretty pictures can also be used as a recruitment tool to bring students into astronomy. APSU houses physics, biology, chemistry, agriculture and medical technology in the same building and displaying astronomical pictures at strategic locations around the building serves to recruit non-science majors to take more astronomy courses. Finally, the images can be used in publicity and outreach efforts by the university. This poster presents some of the techniques used in processing the images tor aesthetic value and how those images are used in recruitment, publicity and outreach. Several of the finished images in poster-sized prints will be available for viewing.

The COMET° Program: Empowering Faculty via Environmental Science Education Resources and Training Opportunities

NASA Astrophysics Data System (ADS)

Abshire, W. E.; Spangler, T. C.; Page, E. M.

2011-12-01

For 20+ years, the COMET Program has provided education to a wide spectrum of users in the atmospheric and related sciences, including faculty and students. COMET's training covers many areas including: climate science; tropical meteorology; marine, coastal, aviation and fire weather; satellite and mesoscale meteorology; numerical weather prediction; hydrometeorology; observational systems; and emergency management and societal impacts. The majority of the training is delivered as self-paced web modules. The entry point to 600+ hours of material is COMET's http://meted.ucar.edu website. This site hosts >400 training modules. Included in these courses are ~100 lessons which have been translated into primarily Spanish and French. Simple, free registration is required. As of summer 2011, there were 200,000 registered users of the site from 200 countries who are taking advantage of this free education and training. Over 9000 of the users are faculty and another 38,000+ are college students. Besides using and re-purposing the high quality multimedia training, faculty often choose to use the registration and assessment system that allows users to take quizzes with each lesson to receive a certificate of completion. With the student's permission, then results can also be e-mailed to an instructor. Another relevant initiative is the creation of a free online, peer reviewed Textbook, "Introduction to Tropical Meteorology" (http://www.meted.ucar.edu/tropical/textbook/). This multimedia textbook is intended for undergraduate and early graduate students, forecasters, and others interested in the impacts of tropical weather and climate. Lastly, with funding from the NOAA/NESDIS/GOES-R Program, COMET recently offered a course for faculty entitled, "Integrating Satellite Data and Products into Geoscience Courses with Emphasis on Advances in Geostationary Satellite Systems." Twenty-four faculty from across the US and the Caribbean participated. Via lectures, lab exercises, and student projects attendees are now prepared to teach future meteorologists about current advanced capabilities as well as next generation data and products. Since many attendees also teach survey courses, they are now prepared to impart this knowledge to many non-science majors (including future K-12 teachers).

Including Non-Traditional Instrumentation in Undergraduate Environmental Chemistry Courses

ERIC Educational Resources Information Center

Jenkins, J. David; Orvis, Jessica N.; Smith, C. Jimmy; Manley, Citabria; Rice, Jeanette K. 2

2004-01-01

Non-traditional instrumentation was obtained for Georgia Southern undergraduates to attain fundamental environmental education through unique laboratory experiences. In this context, the method for including a direct mercury analyzer into both major and non-major environmental laboratories is reported.

Characterizing the Undergraduate Neuroscience Major in the U.S.: An Examination of Course Requirements and Institution-Program Associations

PubMed Central

Pinard-Welyczko, Kira M.; Garrison, Anna C. S.; Ramos, Raddy L.; Carter, Bradley S.

2017-01-01

Neuroscience is a rapidly expanding field, and many colleges and universities throughout the country are implementing new neuroscience degree programs. Despite the field’s growth and popularity, little data exists on the structural character of current undergraduate neuroscience programs. We collected and examined comprehensive data on existing undergraduate neuroscience programs, including academic major requirements and institution characteristics such as size, financial resources, and research opportunities. Thirty-one variables covering information about course requirements, department characteristics, financial resources, and institution characteristics were collected from 118 colleges and universities in the United States that offer a major titled “neuroscience” or “neural sciences.” Data was collected from publicly available sources (online databases, institutions’ neuroscience program websites) and then analyzed to define the average curriculum and identify associations between institution and program characteristics. Our results suggest that the average undergraduate neuroscience major requires 3 chemistry, 3 biology, 3 laboratory, 2–3 neuroscience, 1 physics, 1 math, and 2 psychology courses, suggesting that most neuroscience programs emphasize the natural sciences over the social sciences. Additionally, while 98% of institutions in our database offer research opportunities, only 31% required majors to perform research. Of note, 70% of institutions offering a neuroscience major do not have a neuroscience department, suggesting that most institutions offer neuroscience as an interdisciplinary major spanning several departments. Finally, smaller liberal arts colleges account for the majority of institutions offering a neuroscience major. Overall, these findings may be useful for informing groups interested in undergraduate neuroscience training, including institutions looking to improve or establish programs, students wanting to major in neuroscience and employers hiring neuroscience graduates. PMID:29371843

A Seminar Course to Prepare Astronomy Undergraduate Students for Multiple Career Paths

NASA Astrophysics Data System (ADS)

Hayes-Gehrke, Melissa; Harris, Andrew

2018-01-01

The increasing focus on the importance of STEM careers has led increasing numbers of students to enroll in STEM majors at the University of Maryland, including traditionally smaller majors such as Astronomy. The pursuit of a PhD is neither desirable nor appropriate for many of these students, but most of them lack knowledge of other options open to students with a rigorous science undergraduate degree. We have developed an interactive seminar (1-credit) course (first offered in Fall 2017) intended to expose new Astronomy majors to an array of possible career paths, and give them guidance on steps they can take to prepare for these careers as well as graduate school. Supporting topics include discussions of the elements necessary for success in their undergraduate studies, skills needed preparing for undergraduate research and internship experiences, and showing them how and when an undergraduate research experience will be beneficial for them. We present the seminar course learning goals, topic list and course structure, and results of pre- and post-attitudes surveys.

Undergraduate study in psychology: Curriculum and assessment.

PubMed

Norcross, John C; Hailstorks, Robin; Aiken, Leona S; Pfund, Rory A; Stamm, Karen E; Christidis, Peggy

2016-01-01

The undergraduate curriculum in psychology profoundly reflects and shapes the discipline. Yet, reliable information on the undergraduate psychology curriculum has been difficult to acquire due to insufficient research carried out on unrepresentative program samples with disparate methods. In 2014, APA launched the first systematic effort in a decade to gather national data on the psychology major and program outcomes. We surveyed a stratified random sample of department chairs/coordinators of accredited colleges and universities in the United States that offer undergraduate courses and programs in psychology. A total of 439 undergraduate psychology programs (45.2%) completed the survey. This article summarizes, for both associate and baccalaureate programs, the results of the Undergraduate Study in Psychology. Current practices concerning the introductory course, the courses offered, core requirements, the psychology minor, and tracks/concentrations are presented. The frequency of formal program reviews and program-level assessment methods are also addressed. By extending prior research on the undergraduate curriculum, we chronicle longitudinal changes in the psychology major over the past 20 years. (c) 2016 APA, all rights reserved).

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.

Case studies of community college non-science majors: Effects of self-regulatory interventions on biology self-efficacy and biological literacy

NASA Astrophysics Data System (ADS)

Maurer, Matthew J.

Science literacy has been at the heart of current reform efforts in science education. The focus on developing essential skills needed for individual ability to be literate in science has been at the forefront of most K--12 science curricula. Reform efforts have begun to stretch into the postsecondary arena as well, with an ever increasing dialogue regarding the need for attention to science literacy by college students, especially non-science majors. This study set out to investigate how the use of self-regulatory interventions (specifically, goal setting, concept mapping, and reflective writing) affected student biology self-efficacy and biological literacy. This study employed a qualitative research design, analyzing three case studies. Participants in the study received ten self-regulatory interventions as a set of portfolio assignments. Portfolio work was qualitatively analyzed and coded for self-efficacy, as well as evidence of biological literacy. A biology self-efficacy survey was administered pre- and post- to provide a means of self-efficacy data triangulation. Literacy data was supported via a biological literacy rubric, constructed specifically for this study. Results indicated that mastery experiences were the source of biology self-efficacy. Self-efficacy for specific tasks increased over time, and changes in self-efficacy were corroborated by the self-efficacy survey. Students were found to express biological literacy at nominal, functional, or conceptual levels depending on the specific task. This was supported by data from the biological literacy rubric scores. Final conclusions and implications for the study indicated the need for further research with more samples of students in similar and different contexts. Given the fact that the literature in this area is sparse, the results obtained here have only begun to delve into this area of research. Generalization to other biology courses or contexts outside of the one presented in this study was cautioned until future studies can be conducted.

Testing a Model of the Relationship of Demographic, Affective, and Fitness Variables to Academic Achievement among Non-Science Majors at an Independent University

NASA Astrophysics Data System (ADS)

Dutra, Andrew Martin

The purpose of this study was to determine the relationship of specific attributes of college students to their academic achievement at an independent university in central Florida. Academic achievement was measured as the numeric score on the final exam in a survey-of-science course (EDS 1032) required for non-science majors. Attribute sets included personological, affective, and fitness variables. A hypothesized diagram of the direct and indirect effects among these attributes relative to academic achievement was developed and tested using data collected Spring 2014 from 168 students in four sections of EDS 1032 at Florida Institute of Technology. Multiple regression results revealed that 19% of the variance in a students' academic achievement was due to the influence of these three sets of research factors; this was found to be statistically significant. The results of mediation analyses also indicated that three variables had significant direct effects on academic achievement, namely gender, number of academic credits, and sports motivation. In addition, gender had a significant indirect effect on academic achievement via stress, and the number of academic credits had a significant indirect effect on academic achievement via sports motivation. These findings indicated that female students scored roughly six points higher than male students on this final exam. Also, gender's influence on academic achievement was partially attributable to the student's level of stress (e.g., male students with high levels of stress had lower grades on this final exam than female students with the same level of stress). In addition, it was found that students taking more academic credits were likely to score higher on this final exam than those students taking fewer credits. Further, as students' level of sports amotivation increased, the strength of the relationship between the number of student academic credits and academic achievement decreased. These results support Self-Determination Theory and strengthen the standpoint of athletics and academics in regards to self-regulation.

Start With What You Know: Using Our Scientific Background in the Classroom

NASA Astrophysics Data System (ADS)

Martino, Danielle L.; Prather, E. E.; Barembaum, M. J.; Brissenden, G.

2007-12-01

Most "Astro 101” instructors enter their teaching careers as scientists anxious to impart their passion and knowledge of astronomy to the students sitting before them. The reality of the real teaching and learning environment starts when first confronted by non-science majors. Most of these students resist an authentic engagement of learning science and default to the shortest, easiest path to a high grade. Unfortunately this approach is usually unsuccessful in a course designed to measure students’ deep conceptual understanding rather than their declarative knowledge. While it's clear that, by itself, lecturing is insufficient to promote robust or deep learning, it is difficult to create a learning environment that elicits students’ initial ideas on a topic, while confronting and resolving their misconceptions and helping them to resolve their reasoning difficulties. Instructional strategies such as think-pair-share, Lecture-Tutorials, Ranking Tasks, and concept maps can be very successful at elevating students’ intellectual engagement and understanding, even when used in large lecture classrooms. But success will ONLY occur if these strategies are correctly implemented. Mastering the many subtle, and sometimes non-intuitive elements of proper implementation can be so challenging that instructors often abandon an active learning environment and default back to lecture-centered instruction even though they know this results in lower levels of understanding overall. In an effort to improve our teaching, the astronomy faculty of Santiago Canyon College (SCC) have been attending NASA's Center for Astronomy Education Learner-Centered Teaching Excellence workshops. We present our rationale for implementing learner-centered instructional strategies, and the difficulties encountered during implementation. We also present results on how these techniques have promoted meaningful conceptual gains for non-science majors in other equivalent Astro 101 courses. We further report conceptual gains of SCC students, from pre/post testing using the Light, Spectroscopy Concept Inventory, during the 2006-2007 academic school year.

Adjustment Differences Between Married and Single Undergraduate University Students: An Historical Perspective

ERIC Educational Resources Information Center

Busselen, Harry J., Jr.; Busselen, Carroll Kincaid

1975-01-01

Prior to 1940, the presence of married undergraduate students on the majority of college and university campuses was an unusual occurance. Today, approximately 21 percent of the undergraduate population is married. Reviews over 30 years of research dealing with the adjustment differences of married and single undergraduate students. (Author)

Undergraduate Music Education Majors' Perceptions of Their Development as Conductors: Insights from a Basic Conducting Course

ERIC Educational Resources Information Center

Silvey, Brian A.; Major, Marci L.

2014-01-01

This multiple case study examined undergraduate music majors' perceptions of their experiences while enrolled in a basic conducting course. During the semester, three sophomore music majors with an emphasis in band, choir, or orchestra each participated in three interviews, completed weekly reflection logs, and attended an end-of-the-semester…

Impact of Media on Major Choice: Survey of Communication Undergraduates

ERIC Educational Resources Information Center

Hoag, Anne; Grant, August E.; Carpenter, Serena

2017-01-01

Popular and news media sources may play a key role in influencing undergraduate choice of major, yet their unique impact has not been investigated. Most research has focused on the influence of unmediated salient referents, such as parents, on students' major choices. Therefore, we developed a scale to examine the role of media professionals and…

To Stay or Leave: Factors That Impact Undergraduate Women's Persistence in Science Majors

ERIC Educational Resources Information Center

Gayles, Joy Gaston; Ampaw, Frim

2016-01-01

This study examined factors that influenced undergraduates' decision to enter, leave, or stay within science majors. In addition, we sought to understand if such decisions differed by gender and type of science major. Using Beginning Postsecondary Students (BPS) longitudinal survey data, we found that women were less likely to select a science…

Development of an undergraduate bioinformatics degree program at a liberal arts college.

PubMed

Bagga, Paramjeet S

2012-09-01

The highly interdisciplinary field of bioinformatics has emerged as a powerful modern science. There has been a great demand for undergraduate- and graduate-level trained bioinformaticists in the industry as well in the academia. In order to address the needs for trained bioinformaticists, its curriculum must be offered at the undergraduate level, especially at four-year colleges, where a majority of the United States gets its education. There are many challenges in developing an undergraduate-level bioinformatics program that needs to be carefully designed as a well-integrated and cohesive interdisciplinary curriculum that prepares the students for a wide variety of career options. This article describes the challenges of establishing a highly interdisciplinary undergraduate major, the development of an undergraduate bioinformatics degree program at Ramapo College of New Jersey, and lessons learned in the last 10 years during its management.

Using Interactive Data Visualizations for Exploratory Analysis in Undergraduate Genomics Coursework: Field Study Findings and Guidelines

ERIC Educational Resources Information Center

Mirel, Barbara; Kumar, Anuj; Nong, Paige; Su, Gang; Meng, Fan

2016-01-01

Life scientists increasingly use visual analytics to explore large data sets and generate hypotheses. Undergraduate biology majors should be learning these same methods. Yet visual analytics is one of the most underdeveloped areas of undergraduate biology education. This study sought to determine the feasibility of undergraduate biology majors…

Emphasizing Research (Further) in Undergraduate Technical Communication Curricula: Involving Undergraduate Students with an Academic Journal's Publication and Management

ERIC Educational Resources Information Center

Ford, Julie Dyke; Newmark, Julianne

2011-01-01

This article presents follow-up information to a previous publication regarding ways to increase emphasis on research skills in undergraduate Technical Communication curricula. We detail the ways our undergraduate program highlights research by requiring majors to complete senior thesis projects that culminate in submission to an online…

Examining the Views of Undergraduate STEM Majors Regarding K-12 Teaching as a Profession

ERIC Educational Resources Information Center

Plecki, Margaret; St. John, Elise; Elfers, Ana

2013-01-01

This study explores how undergraduates enrolled in STEM (science, technology, engineering, and mathematics) courses view the K-12 teaching profession. A survey was conducted with a sample of undergraduates in community college and university settings (n = 610). We examine whether undergraduates believe that teaching offers what they value in a…

Student Performance in Undergraduate Economics Courses

ERIC Educational Resources Information Center

Mumford, Kevin J.; Ohland, Matthew W.

2011-01-01

Using undergraduate student records from six large public universities from 1990 to 2003, the authors analyze the characteristics and performance of students by major in two economics courses: Principles of Microeconomics and Intermediate Microeconomics. This article documents important differences across students by major in the principles course…

Career Exploration among College Students

ERIC Educational Resources Information Center

Fouad, Nadya A.; Ghosh, Arpita; Chang, Wen-hsin; Figueiredo, Catia; Bachhuber, Thomas

2016-01-01

College is a significant time for undergraduates to declare majors and choose career paths. For many undergraduates, choosing both a major and a career path is challenging. Research shows that many universities deliver career interventions through dedicated career decision-making courses (Mead & Korschgen, 1994). However, there has been…

Do Biology Students Really Hate Math? Empirical Insights into Undergraduate Life Science Majors' Emotions about Mathematics

ERIC Educational Resources Information Center

Wachsmuth, Lucas P.; Runyon, Christopher R.; Drake, John M.; Dolan, Erin L.

2017-01-01

Undergraduate life science majors are reputed to have negative emotions toward mathematics, yet little empirical evidence supports this. We sought to compare emotions of majors in the life sciences versus other natural sciences and math. We adapted the Attitudes toward the Subject of Chemistry Inventory to create an Attitudes toward the Subject of…

Is There a Correlation between Cheating in Undergraduate Institutions and the Mess on Wall Street? ... Are We Addicted to Cheating?

ERIC Educational Resources Information Center

Crawford, Constance J.; Stellenwerf, Anita L.

2009-01-01

A recent survey of undergraduate business students indicated that an overwhelming majority, over 75%, of the participants admitted to cheating. When graduate school majors were surveyed, research indicates that the biggest cheaters, 56% overall, were business majors. Are students behaving in response to societal rewards of corporate malfeasance…

Predicting Undergraduates' Persistence in Science, Technology, Engineering, and Math Fields

NASA Astrophysics Data System (ADS)

Koch, Amanda Joy

A national shortage of workers in Science, Technology, Engineering, and Math (STEM) occupations has led to efforts to identify why people leave these fields. Lower persistence rates in STEM for females than for males have also led to examinations of features that cause females to leave STEM fields. The current study examines individual- and school-level features that influence undergraduate students' decisions to leave STEM majors, focusing on potential explanations for why females are more likely than males to leave. Persistence in STEM was examined in three samples: (a) persistence through the second year of college in a sample of high school seniors interested in STEM majors; (b) persistence through the fourth year of college in a sample of second year undergraduate STEM majors; and (c) persistence through the second, third, and fourth years of college in a sample of high school seniors interested in STEM majors. Differences between persistence in male-dominated and non-male-dominated STEM majors were also examined. In all samples, gender differences were found for most individual-level predictors, with males tending to score higher than females on measures such as SAT-Math, self-rated STEM ability, and high school extracurricular activities and awards in STEM. On the other hand, females earned better high school grades and had stronger relative non-STEM ability and achievement than males. Bivariate analyses indicated that those who persisted in STEM majors typically had higher scores than those who did not persist for SAT-Math, high school achievement, STEM course taking, undergraduate STEM grades, self-rated STEM ability, interest in STEM, extracurricular activities and awards in STEM, degree goals, and socioeconomic status. Multivariate analyses identified SAT-Math as one of the best predictors of persistence in high school samples, and undergraduate STEM GPA was one of the best predictors in the samples of second year undergraduates. In several samples, a significant cross-level interaction was found between gender and undergraduate females' college-level proportional representation in STEM; however, the effects were inconsistent across samples. Even when controlling for various individual- and school-level predictors, gender effects tended to remain significant, with females in most samples leaving STEM majors at higher rates than males.

"The Age of Newton": An Intensive Physics and Mathematics Course

ERIC Educational Resources Information Center

Calvert, J. B.; And Others

1976-01-01

Describes an intensive course in mathematics (calculus), mechanics, optics, and astronomy directed mainly toward nonscience students. Course format, operation, and student evaluation appear. (Author/CP)

A National Study Assessing the Teaching and Learning of Introductory Astronomy Part II: Analysis of Student Demographics

NASA Astrophysics Data System (ADS)

Rudolph, Alexander; Prather, E. E.; Brissenden, G.; Consiglio, D.; Gonzaga, V.

2010-01-01

This is the second in a series of reports on a national study of the teaching and learning of astronomy in general education, non-science major, introductory college astronomy courses (Astro 101). The results show dramatic improvement in student learning with increased use of interactive learning strategies even after controlling for individual student characteristics. In addition, we find that the positive effects of interactive learning strategies apply equally to men and women, across ethnicities, for students with all levels of prior mathematical preparation and physical science course experience, independent of GPA, and regardless of primary language. These results powerfully illustrate that all categories of students can benefit from the effective implementation of interactive learning strategies.

Using Solar System Topics to Teach the Scientific Method in an Age of Science Denial

NASA Astrophysics Data System (ADS)

Lo Presto, M. C.

2013-04-01

A number of excellent opportunities to remind students of the scientific method and how the process of science works come about during coverage of common topics in a Solar System “unit” in an introductory college astronomy course. With the tremendous amount of misinformation about science that students are exposed to through the Internet and other forms of media, this is now more important than ever. If non-science majors can leave introductory astronomy, often the only science course they will take, with a decent appreciation of, or at least an exposure to, how science works, they will then be better able to judge the validity of what they hear about science in the media throughout their lives.

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.

Science Illiteracy: Breaking the Cycle

NASA Astrophysics Data System (ADS)

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

2003-12-01

At the University of Arizona, as at many state universities and colleges, the introductory science classes for non-science majors may be the only science classes that future K--8 teachers will take. The design of the UA's General Education program requires all future non-science certified teachers to take the General Education science classes. These classes are therefore an ideal venue for the training of the state's future teachers. Many students, often including future teachers, are ill-prepared for college, i.e., they lack basic science content knowledge, basic mathematics skills, and reading and writing skills. They also lack basic critical thinking skills and study skills. It is within this context that our future teachers are trained. How do we break the cycle of science illiteracy? There is no simple solution, and certainly not a one-size-fits-all panacea that complements every professor's style of instruction. However, there are several programs at the University of Arizona, and also principles that I apply in my own classes, that may be adaptable in other classrooms. Assessment of K--12 students' learning supports the use of inquiry-based science instruction. This approach can be incorporated in college classes. Modeling proven and productive teaching methods for the future teachers provides far more than ``just the facts,'' and all students gain from the inquiry approach. Providing authentic research opportunities employs an inquiry-based approach. Reading (outside the textbook) and writing provide feedback to students with poor writing and critical thinking skills. Using peer tutors and an instant messaging hot line gives experience to the tutors and offers "comfortable" assistance to students.

Undergraduate Women's Persistence in the Sciences

ERIC Educational Resources Information Center

George-Jackson, Casey E.

2014-01-01

This study uses longitudinal data of undergraduate students from five public land-grant universities to better understand undergraduate students' persistence in and switching of majors, with particular attention given to women's participation in science, technology, engineering, and mathematics (STEM) fields. Specifically, the study examines…

Reliability and Validity of the Research Methods Skills Assessment

ERIC Educational Resources Information Center

Smith, Tamarah; Smith, Samantha

2018-01-01

The Research Methods Skills Assessment (RMSA) was created to measure psychology majors' statistics knowledge and skills. The American Psychological Association's Guidelines for the Undergraduate Major in Psychology (APA, 2007, 2013) served as a framework for development. Results from a Rasch analysis with data from n = 330 undergraduates showed…

The Undergraduate Spanish Major Curriculum: Faculty, Alumni, and Student Perceptions

ERIC Educational Resources Information Center

Hertel, Tammy Jandrey; Dings, Abby

2017-01-01

This article presents the quantitative and qualitative results of a nationwide survey of the perceptions of faculty, alumni, and students regarding the contribution to the undergraduate Spanish major curriculum of various types of courses and experiences. Quantitative results indicated that all participants valued the importance of study abroad as…

The Undergraduate Spanish Major Curriculum: Realities and Faculty Perceptions

ERIC Educational Resources Information Center

Hertel, Tammy Jandrey; Dings, Abby

2014-01-01

This article presents the quantitative and qualitative results of a nationwide survey of Spanish department faculty on the components of their undergraduate Spanish major curriculum and their perceptions of these components, as well as their perceptions of recent Modern Language Association (MLA) reports (2007, 2009) and the reports'…

Undergraduate Music Education Major Identity Formation in the University Music Department

ERIC Educational Resources Information Center

McClellan, Edward

2014-01-01

The purpose of this study was to determine relationships among social identity, value of music education, musician-teacher orientation, selected demographic factors, and self-concept as a music educator. Participants (N = 968) were volunteer undergraduate music education majors enrolled at four-year institutions granting a bachelor of music…

Practical Approaches to Outcomes Assessment: The Undergraduate Major in Foreign Languages and Literatures.

ERIC Educational Resources Information Center

Liskin-Gasparro, Judith E.

1995-01-01

Discusses specific instruments and procedures that university-level foreign languages and literatures departments can use in outcomes-assessment of their undergraduate majors, including standardized tests, oral assessments, questionnaires, and portfolios. Case studies of outcomes-assessment programs in language departments at the University of…

A Statistics Curriculum for the Undergraduate Chemistry Major

ERIC Educational Resources Information Center

Schlotter, Nicholas E.

2013-01-01

Our ability to statistically analyze data has grown significantly with the maturing of computer hardware and software. However, the evolution of our statistics capabilities has taken place without a corresponding evolution in the curriculum for the undergraduate chemistry major. Most faculty understands the need for a statistical educational…

Teaching Old French Literature to Undergraduates.

ERIC Educational Resources Information Center

Stewart, Harry E.

As a prelude to graduate-level work for French majors, medieval studies are proposed for undergraduate students. Problems inherent in the establishment of the undergraduate program are identified with some suggested solutions. Concepts related to historical grammar, teaching materials, literature, and linguistics are developed. A logical course…

An Introductory Research Experience in Mathematics for Undergraduates

ERIC Educational Resources Information Center

Johnston, William W.; Webster, Jonathan E.; Wilson, Christopher James

2017-01-01

This paper offers a strategic initiative designed to boost the level of collaborative mathematical research involving undergraduate mathematics students at Butler University. It describes goals, program design, logistics, and outcomes for an 8-day intensive summer experience in which undergraduate mathematics majors engaged in original…

Effectiveness of LifeRAFT Undergraduate Helping Skills Training Model

ERIC Educational Resources Information Center

Campbell, Elizabeth L.; Davidson, Kenzie; Davidson, Spencer M.

2017-01-01

LifeRAFT, a helping skills training model for undergraduate paraprofessionals, addresses training needs for applied psychology skills for undergraduate psychology majors. LifeRAFT draws from three empirically supported psychotherapy treatments to introduce counselling theory and encourage helping skill progression. Trainees learn practical helping…

Cultivating and Nurturing Undergraduate IS Research

ERIC Educational Resources Information Center

Tams, Stefan

2014-01-01

Assurance of student motivation and retention is a central challenge for Information Systems faculty. A promising means of stimulating interest in the Information Systems major and in subsequent graduate degree programs is undergraduate Information Systems research. Undergraduate Information Systems research allows students to engage more deeply…

Undergraduate Psychology Courses Preferred by Graduate Programs

ERIC Educational Resources Information Center

Lawson, Timothy J.; Reisinger, Debra L.; Jordan-Fleming, Mary Kay

2012-01-01

Information about the undergraduate psychology courses preferred by graduate programs is useful for a number of purposes, including (a) advising psychology majors who are interested in graduate school, (b) undergraduate curriculum planning, and (c) examining whether graduate programs' preferences reflect national guidelines for the undergraduate…

Building Undergraduate Physics Programs for the 21st Century

NASA Astrophysics Data System (ADS)

Hilborn, Robert

2001-04-01

Undergraduate physics programs in the United States are under stress because of changes in the scientific and educational environment in which they operate. The number of undergraduate physics majors is declining nationwide; there is some evidence that the "best" undergraduate students are choosing majors other than physics, and funding agencies seem to be emphasizing K-12 education. How can physics departments respond creatively and constructively to these changes? After describing some of the details of the current environment, I will discuss the activities of the National Task Force on Undergraduate Physics, supported by the American Institute of Physics, the America Physical Society, the American Association of Physics Teachers and the ExxonMobil Foundation. I will also present some analysis of Task Force site visits to departments that have thriving undergraduate physics programs, pointing out the key features that seem to be necessary for success. Among these features are department-wide recruitment and retention efforts that are the theme of this session.

Introducing Research Methods to Undergraduate Majors Through an On-Campus Observatory with The University of Toledo's Ritter Observatory

NASA Astrophysics Data System (ADS)

Richardson, Noel; Hardegree-Ullman, Kevin; Bjorkman, Jon Eric; Bjorkman, Karen S.; Ritter Observing Team

2017-01-01

With a 1-m telescope on the University of Toledo (OH) main campus, we have initiated a grad student-undergraduate partnership to help teach the undergraduates observational methods and introduce them to research through peer mentorship. For the last 3 years, we have trained up to 21 undergraduates (primarily physics/astronomy majors) in a given academic semester, ranging from freshman to seniors. Various projects are currently being conducted by undergraduate students with guidance from graduate student mentors, including constructing three-color images, observations of transiting exoplanets, and determination of binary star orbits from echelle spectra. This academic year we initiated a large group research project to help students learn about the databases, journal repositories, and online observing tools astronomers use for day-to-day research. We discuss early inclusion in observational astronomy and research of these students and the impact it has on departmental retention, undergraduate involvement, and academic success.

Understanding Why Undergraduate Students Declare and Continue to Study an Exercise Science-Related Major

PubMed Central

VAARTSTRA, MATTHEW B.; KERCHER, VANESSA M.; START, AMANDA; BROWN, AMBER N.; PETERSON, MARK D.; MCGRATH, RYAN

2017-01-01

Understanding factors that contribute to a student’s selection of an exercise science-related major is important to student success, higher education and industry. This study sought to 1) better understand why undergraduate students study an exercise science-related major, 2) determine whether positive influences to study an exercise science-related major differ by academic classification, and 3) identify what student’s aspirations are after graduation. Department administrators from four-year colleges and universities offering an exercise science-related major in the Northwest Region of the United States (i.e., Idaho, Montana, Oregon, and Washington) were contacted. Cooperating department administrators were given self-reported questionnaires for students to complete using a snowball sampling method. A total of 388 participants completed the questionnaire. Interest in the subject and potential job opportunities were the most common reasons to study an exercise science-related major. Self-reported Holland’s codes identified that realistic and social personalities were most prevalent among participants. Seniors rated a friend’s influence and college advisors as stronger influences to study an exercise science-related major compared to freshmen. Pay in the field was a stronger influence for freshmen to study an exercise science-related major than for fifth-year seniors, whereas freshmen were less influenced by introductory courses to study an exercise-science related major than fifth-year seniors. The majority of undergraduate students studying an exercise science-related major planned on attending graduate school after completing their baccalaureate degree. These findings can be used to help guide undeclared students and better serve undergraduates enrolled in an exercise science-related major. PMID:28966716

Understanding Why Undergraduate Students Declare and Continue to Study an Exercise Science-Related Major.

PubMed

Vaartstra, Matthew B; Kercher, Vanessa M; Start, Amanda; Brown, Amber N; Peterson, Mark D; McGrath, Ryan

2017-01-01

Understanding factors that contribute to a student's selection of an exercise science-related major is important to student success, higher education and industry. This study sought to 1) better understand why undergraduate students study an exercise science-related major, 2) determine whether positive influences to study an exercise science-related major differ by academic classification, and 3) identify what student's aspirations are after graduation. Department administrators from four-year colleges and universities offering an exercise science-related major in the Northwest Region of the United States (i.e., Idaho, Montana, Oregon, and Washington) were contacted. Cooperating department administrators were given self-reported questionnaires for students to complete using a snowball sampling method. A total of 388 participants completed the questionnaire. Interest in the subject and potential job opportunities were the most common reasons to study an exercise science-related major. Self-reported Holland's codes identified that realistic and social personalities were most prevalent among participants. Seniors rated a friend's influence and college advisors as stronger influences to study an exercise science-related major compared to freshmen. Pay in the field was a stronger influence for freshmen to study an exercise science-related major than for fifth-year seniors, whereas freshmen were less influenced by introductory courses to study an exercise-science related major than fifth-year seniors. The majority of undergraduate students studying an exercise science-related major planned on attending graduate school after completing their baccalaureate degree. These findings can be used to help guide undeclared students and better serve undergraduates enrolled in an exercise science-related major.

Teaching Astronomy using a Flipped Classroom Model of Instruction

NASA Astrophysics Data System (ADS)

Wenger, Matthew; Impey, Chris D.; Rivera Chavez, Wendy

2014-11-01

Astronomy: State of the Art is a MOOC specifically developed to study student participation in an online learning environment. The project aims to serve multiple audiences of learners. For this project we focused on college students who use the online environment for lectures and quizzes but whose classroom time is devoted to hands-on activities and group work; this is the “flipped classroom” model.In spring 2014, Astronomy: State of the Art was co-convened with “The Physical Universe,” a Natural Sciences course taught at the University of Arizona that satisfies a General Education requirement for non-science majors. Using the same core material as Astronomy - State of the Art (with additional modules on the physics of radiation, atomic structure, energy, and gravity that are not necessary for the informal learners), the local course employed a “flipped” model where the students access lectures and podcasts online but are in a face-to-face classroom two times a week for labs and hands-on activities, lecture tutorials, group discussions, and other research-validated tools for enhancing learning. A flipped or hybrid model gives students flexibility, uses the online medium for the aspects of instruction where interaction with an instructor isn’t required, and optimizes the scarce resource of time in a large classroom.Final student grades were closely related to their attendance, however, performance in this class was not correlated with completion of the online video lectures, even though the quizzes were closely tied to the content of these videos. The course will next be taught using Coursera which allow instructors to more closely examine the relationship between students use of course materials and understanding of course topics. The eventual goal is to recruit undergraduates from anywhere in the United States and award them transferrable credit for completing the class.

Using the case study teaching method to promote college students' critical thinking skills

NASA Astrophysics Data System (ADS)

Terry, David Richard

2007-12-01

The purpose of this study was to examine general and domain-specific critical thinking skills in college students, particularly ways in which these skills might be increased through the use of the case study method of teaching. General critical thinking skills were measured using the Watson-Glaser Critical Thinking Appraisal (WGCTA) Short Form, a forty-item paper-and-pencil test designed to measure important abilities involved in critical thinking, including inference, recognition of assumptions, deduction, interpretation, and evaluation of arguments. The ability to identify claims and support those claims with evidence is also an important aspect of critical thinking. I developed a new instrument, the Claim and Evidence Assessment Tool (CEAT), to measure these skills in a domain-specific manner. Forty undergraduate students in a general science course for non-science majors at a small two-year college in the northeastern United States experienced positive changes in general critical thinking according to results obtained using the Watson-Glaser Critical Thinking Appraisal (WGCTA). In addition, the students showed cumulative improvement in their ability to identify claims and evidence, as measured by the Claim and Evidence Assessment Tool (CEAT). Mean score on the WGCTA improved from 22.15 +/- 4.59 to 23.48 +/- 4.24 (out of 40), and the mean CEAT score increased from 14.98 +/- 3.28 to 16.20 +/- 3.08 (out of 24). These increases were modest but statistically and educationally significant. No differences in claim and evidence identification were found between students who learned about specific biology topics using the case study method of instruction and those who were engaged in more traditional instruction, and the students' ability to identify claims and evidence and their factual knowledge showed little if any correlation. The results of this research were inconclusive regarding whether or not the case study teaching method promotes college students' general or domain-specific critical thinking skills, and future research addressing this issue should probably utilize larger sample sizes and a pretest-posttest randomized experimental design.

A Virtual Embedded Microcontroller Laboratory for Undergraduate Education: Development and Evaluation

ERIC Educational Resources Information Center

Richardson, Jeffrey J.; Adamo-Villani, Nicoletta

2010-01-01

Laboratory instruction is a major component of the engineering and technology undergraduate curricula. Traditional laboratory instruction is hampered by several factors including limited access to resources by students and high laboratory maintenance cost. A photorealistic 3D computer-simulated laboratory for undergraduate instruction in…

Environmental Engineering Talent Demand and Undergraduate Education in China

ERIC Educational Resources Information Center

Zhang, Huan-zhen; Li, Jian-bo; Luo, Xiang-nan; Zhao, Bin-yan; Luo, Ren-ming; Wang, Qiao-ling

2004-01-01

In Chinese higher environmental education, undergraduate education of environmental engineering starts earliest and develops fastest. The undergraduate has been playing an important role in controlling pollution for more than twenty years. The setting and distribution of the environmental engineering major was analyzed, the conditions of the…

Alternative Methods for Teaching Chemical Information to Undergraduates.

ERIC Educational Resources Information Center

Lee, Wade M.; Wiggins, Gary

1997-01-01

Discusses whether to provide library instruction for undergraduate chemistry majors as a separate class or integrated into courses, particularly for those who receive a degree certified by the American Chemical Society. The authors suggest that a librarian coordinate course-integrated instruction throughout the undergraduate curriculum. (LRW)

Should We Still Be Talking about Leaving? A Comparative Examination of Social Inequality in Undergraduate Patterns of Switching Majors. WCER Working Paper No. 2014-5

ERIC Educational Resources Information Center

Ferrare, Joseph J.; Lee, You-Geon

2014-01-01

Despite extensive efforts to increase the number of undergraduates majoring and persisting in science, math, engineering, and technology (STEM) fields, there is surprisingly little understanding of recent patterns of switching from these majors to those in other fields of study. In addition, little is known about whether the racial, class, and…

Building Capacity for Undergraduate Research in Mathematics: A Case Study at Georgia College

ERIC Educational Resources Information Center

Brown, Ryan; Chiorescu, Marcela; Mohr, Darin

2017-01-01

The Georgia College mathematics department has reimagined its major requirements to integrate meaningful undergraduate research experiences. We have developed and implemented a multi-year action plan to transform our major. In this article we discuss how the department has developed and implemented a year-long research experience as a capstone…

Structuring an Undergraduate Mathematics Seminar Dealing with Options and Hedging

ERIC Educational Resources Information Center

Prevot, K. J.

2006-01-01

Offering mathematics majors the opportunity to engage in current, real-world applications can be an important enhancement to their undergraduate course curriculum. Instead of focusing on the traditional topic areas in pure and/or applied mathematics, one may structure a seminar course for senior mathematics majors by concentrating on a specific…

Creativity and Introductory Physics

ERIC Educational Resources Information Center

Guilaran, Ildefonso J.

2012-01-01

When I was an undergraduate physics major, I would often stay up late with my physics major roommate as we would digest the physics content we were learning in our courses and explore our respective imaginations armed with our new knowledge. Such activity during my undergraduate years was confined to informal settings, and the first formal…

Applying a Proposal Guideline in Mentoring English Major Undergraduate Researchers in Taiwan

ERIC Educational Resources Information Center

Kuo, Ya-Hui

2011-01-01

Many colleges and universities in Taiwan have implemented research courses into the school curriculum in an effort to meet the demands of higher education and requirements of graduation. However, not many researchers have proposed a guideline in mentoring English major undergraduates in their research proposal writing in Taiwan. Furthermore, to…

Geologic Problem Solving in the Field: Analysis of Field Navigation and Mapping by Advanced Undergraduates

ERIC Educational Resources Information Center

Riggs, Eric M.; Lieder, Christopher C.; Ballliet, Russell

2009-01-01

Field instruction is a critical piece of undergraduate geoscience majors' education, and fieldwork remains a major part of the work of professional geologists. Despite the central importance of field education, there exists relatively little educational research exploring how students learn to solve problems in geological fieldwork. This study…

Gender Differences in the Academic Performance and Retention of Undergraduate Engineering Majors

ERIC Educational Resources Information Center

Haemmerlie, Frances Montgomery; Montgomery, Robert L.

2012-01-01

This study examined the role of academic performance factors, and personality traits as measured by the "Hogan Personality Inventory" (Hogan & Hogan, 2007), in the academic success and retention of undergraduate engineering majors. With regard to academic performance, the academic measures of ACT score and high school GPA were…

Increasing Persistence in Undergraduate Science Majors: A Model for Institutional Support of Underrepresented Students

ERIC Educational Resources Information Center

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…

A Multi-Institution Exploration of Secondary Socialization and Occupational Identity among Undergraduate Music Majors

ERIC Educational Resources Information Center

Austin, James R.; Isbell, Daniel S.; Russell, Joshua A.

2012-01-01

Researchers are increasingly interested in the psychological and sociological processes by which college students develop competence and confidence as musicians. We surveyed 454 undergraduate music majors enrolled in one of three NASM-accredited music schools in the US. Participants completed a questionnaire that addressed beliefs about…

Informal Learning in Science, Math, and Engineering Majors for African American Female Undergraduates

ERIC Educational Resources Information Center

McPherson, Ezella

2014-01-01

This research investigates how eight undergraduate African American women in science, math, and engineering (SME) majors accessed cultural capital and informal science learning opportunities from preschool to college. It uses the multiple case study methodological approach and cultural capital as frameworks to better understand the participants'…

Better Understanding of Homologous Recombination through a 12-Week Laboratory Course for Undergraduates Majoring in Biotechnology

ERIC Educational Resources Information Center

Li, Ming; Shen, Xiaodong; Zhao, Yan; Hu, Xiaomei; Hu, Fuquan; Rao, Xiancai

2017-01-01

Homologous recombination, a central concept in biology, is defined as the exchange of DNA strands between two similar or identical nucleotide sequences. Unfortunately, undergraduate students majoring in biotechnology often experience difficulties in understanding the molecular basis of homologous recombination. In this study, we developed and…

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…

Undergraduate Public Health Majors: Why They Choose Public Health or Medicine?

ERIC Educational Resources Information Center

Hilton, Warren

2013-01-01

This mixed methods study examined the relationship between the motivations for attending college of undergraduate students with a focus on students with a public health major, and their desire to pursue graduate training in public health and subsequently, public health careers. The study highlighted the current public health workforce shortage and…

Chemistry for Nonscientists

ERIC Educational Resources Information Center

Weil, Thomas A.; And Others

1974-01-01

Discusses the case of DDT which can be introduced to nonscience students in a chemistry course, including the development of DDT, problems associated with its adverse effects, and curtailment of its use in our environments. (CC)

The Changing Landscape of Undergraduate Physics

NASA Astrophysics Data System (ADS)

Howes, Ruth

2006-11-01

The National Task Force on Undergraduate Physics was convened by APS, AAPT and AIP to study the steep decline in the number of physics majors that occurred during the 1990s. The Task Force conducted project SPIN-UP (Strategic Programs for Innovations in Undergraduate Physics) to investigate why some departments were thriving while others are losing majors. With support from the ExxonMobil Foundation, we conducted site visits to 21 ``thriving'' departments and have worked with the AIP statistics program to survey the 562 departments that grant undergraduate degrees in physics. The results of the study identified key ingredients in thriving departments and essential elements needed to make changes that respond to the changing environments in which physics departments find themselves. Today, enrollments in undergraduate physics are climbing again. We need to ensure that this positive trend continues and ensure that we attract women and members of underrepresented groups to the study of physics.

Profile of Undergraduate Students: 2011-12. Web Tables. NCES 2015-167

ERIC Educational Resources Information Center

Skomsvold, Paul

2014-01-01

These Web Tables provide comprehensive information on undergraduates who were enrolled in U.S. postsecondary institutions during the 2011-12 academic year. Estimates for enrolled students are presented by attendance status, degree or certificate program, undergraduate major field of study, average grades, student demographic characteristics,…

Course-Based Undergraduate Research Experiences Can Make Scientific Research More Inclusive

ERIC Educational Resources Information Center

Bangera, Gita; Brownell, Sara E.

2014-01-01

Current approaches to improving diversity in scientific research focus on graduating more science, technology, engineering, and mathematics (STEM) majors, but graduation with a STEM undergraduate degree alone is not sufficient for entry into graduate school. Undergraduate independent research experiences are becoming more or less a prerequisite…

Learning by Doing: The Challenge of Engaging Undergraduates in Economics Research

ERIC Educational Resources Information Center

Brunnermeier, Smita

2017-01-01

This article describes strategies developed at Princeton University to foster and promote research by all undergraduate students majoring in economics. It describes core features of the undergraduate research program and provides tangible recommendations for addressing resource constraints, and for incentivizing faculty advisors and students to…

Profile of Undergraduate Students: 2007-08. Web Tables. NCES 2010-205

ERIC Educational Resources Information Center

Staklis, Sandra

2010-01-01

These tables provide comprehensive information on undergraduates who were enrolled in U.S. postsecondary institutions during the 2007-08 academic year. Estimates for enrolled students are presented by attendance status, degree program, undergraduate major, average grades, student characteristics, financial aid status and credit card debt, work,…

Making Data Management Accessible in the Undergraduate Chemistry Curriculum

ERIC Educational Resources Information Center

Reisner, Barbara A.; Vaughan, K. T. L.; Shorish, Yasmeen L.

2014-01-01

In the age of "big data" science, data management is becoming a key information literacy skill for chemistry professionals. To introduce this skill in the undergraduate chemistry major, an activity has been developed to familiarize undergraduates with data management. In this activity, students rename and organize cards that represent…

Undergraduate Research Experience for STEM Students: Efforts and Outcomes

ERIC Educational Resources Information Center

Zhang, Chuanlei; Swaid, Samar

2017-01-01

Undergraduate research for STEM students involves students who are attending college or universities pursuing a bachelor's degree, majoring in fields related to Science, Technology, Engineering and Mathematics (STEM). Research experience for STEM undergraduates has been viewed as a positive experience that has several benefits such as developing…

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.

Creating a Context for Chemistry

NASA Astrophysics Data System (ADS)

Truman Schwartz, A.

Until relatively recently, the teaching of chemistry at the college and university level in the United States has been quite traditional and oriented primarily toward the preparation of chemists. Students not concentrating in the sciences have often been poorly served by existing courses. Chemistry in Context: Applying Chemistry to Society, a textbook for nonscience majors developed under the sponsorship of the American Chemical Society, is an effort to address the needs and interests of this audience. The book introduces the phenomena and principles of chemistry within the context of socially significant issues such as global warming, ozone depletion, alternate energy sources, nutrition, and genetic engineering. The chemistry is presented as needed to inform an understanding of the central topics, and the text features student-centered activities designed to promote critical thinking and risk-benefit analysis as well as an understanding of chemical principles. This paper summarizes the origin, development, content, pedagogy, evaluation, and influence of Chemistry in Context and considers its potential implications for other disciplines and the instruction of science majors.

NSF Support for Physics at the Undergraduate Level: A View from Inside

NASA Astrophysics Data System (ADS)

McBride, Duncan

2015-03-01

NSF has supported a wide range of projects in physics that involve undergraduate students. These projects include NSF research grants in which undergraduates participate; Research Experiences for Undergraduates (REU) centers and supplements; and education grants that range from upper-division labs that may include research, to curriculum development for upper- and lower-level courses and labs, to courses for non-majors, to Physics Education Research (PER). The NSF Divisions of Physics, Materials Research, and Astronomy provide most of the disciplinary research support, with some from other parts of NSF. I recently retired as the permanent physicist in NSF's Division of Undergraduate Education (DUE), which supports the education grants. I was responsible for a majority of DUE's physics grants and was involved with others overseen by a series of physics rotators. There I worked in programs entitled Instrumentation and Laboratory Improvement (ILI); Course and Curriculum Development (CCD); Course, Curriculum, and Laboratory Improvement (CCLI); Transforming Undergraduate STEM Education (TUES); and Improving Undergraduate STEM Education (IUSE). NSF support has enabled physics Principal Investigators to change and improve substantially the way physics is taught and the way students learn physics. The most important changes are increased undergraduate participation in physics research; more teaching using interactive engagement methods in classes; and growth of PER as a legitimate field of physics research as well as outcomes from PER that guide physics teaching. In turn these have led, along with other factors, to students who are better-prepared for graduate school and work, and to increases in the number of undergraduate physics majors. In addition, students in disciplines that physics directly supports, notably engineering and chemistry, and increasingly biology, are better and more broadly prepared to use their physics education in these fields. I will describe NSF support for undergraduate physics with both statistics and examples. In addition I will talk about trends in support for undergraduate physics at NSF and speculate about directions such support might go. Contents of this paper reflect the opinions of the author and do not necessarily reflect those of the National Science Foundation.

Where are the women? Campus climate and the degree aspirations of women in science, technology, engineering and mathematics programs

NASA Astrophysics Data System (ADS)

Schulz, Phyllis

Women remain underrepresented in science, technology, engineering, and mathematics (STEM) at all levels of higher education, which has become a concern in the competitive global marketplace. Using both quantitative and qualitative analysis, this dissertation sought to learn more about how the campus climate and self-concept influence the degree aspirations of female undergraduate students majoring in STEM programs. Using the Beginning Post-Secondary dataset, regression analyses showed that a student's initial degree aspirations, SAT scores, and interactions with faculty were all positively related to their degree aspirations three years later. Interviews with seven current STEM undergraduates confirmed the importance of interaction with faculty and suggested undergraduate research and classroom experiences also play a role in the degree aspirations of STEM students. Three of the seven students interviewed began their undergraduate educations as non-STEM majors, suggesting that the traditional STEM pipeline may no longer be the norm. These findings suggest that both future research and current practitioners should focus on undergraduate STEM classroom and research experiences. Additionally, the characteristics of students who switch into STEM majors should be explored so that we may continue to expand the number of students pursuing STEM degrees.

An Observational Study of Score Study Practices among Undergraduate Instrumental Music Education Majors

ERIC Educational Resources Information Center

Silvey, Brian A.; Montemayor, Mark; Baumgartner, Christopher M.

2017-01-01

The purpose of this study was to investigate undergraduate instrumental music education majors' score study practices as they related to the effectiveness of their simulated conducting. Participants (N = 30) were video recorded in two sessions in which they completed a 20-min score study session and a simulated conducting performance. In the first…

Wise Women: A Narrative Study of Former Living-Learning Community Participants' Experiences as STEM Majors

ERIC Educational Resources Information Center

Grays, Shaefny D.

2013-01-01

Over the past few decades, higher education has attempted to address the issue of underrepresentation of women in STEM undergraduate degree programs. Living-learning communities represent one strategy to help address low persistence for women in undergraduate STEM majors. The purpose of this study was to explore the experiences of undergraduate…

Fostering Empathy in Undergraduate Health Science Majors through the Reconciliation of Objectivity and Subjectivity: An Integrated Approach

ERIC Educational Resources Information Center

Dunbar, Robert L.; Nichols, Marcia D.

2012-01-01

The demand for empathetic health care practitioners requires an academic curriculum suited to that need. Here we describe a series of integrated activities that were designed to foster empathy in undergraduate health science majors. By combining content and pedagogical approaches from the humanities and sciences, we asked students to reconcile…

Design and Evaluation of a One-Semester General Chemistry Course for Undergraduate Life Science Majors

ERIC Educational Resources Information Center

Schnoebelen, Carly; Towns, Marcy H.; Chmielewski, Jean; Hrycyna, Christine A.

2018-01-01

The chemistry curriculum for undergraduate life science majors at Purdue University has been transformed to better meet the needs of this student population and prepare them for future success. The curriculum, called the 1-2-1 curriculum, includes four consecutive and integrated semesters of instruction in general chemistry, organic chemistry, and…

Turning into Teachers: Influences of Authentic Context Learning Experiences on Occupational Identity Development of Preservice Music Teachers

ERIC Educational Resources Information Center

Haston, Warren; Russell, Joshua A.

2012-01-01

The purpose of this study was to examine the occupational identity development of undergraduate music education majors as they participated in a yearlong authentic context learning (ACL) experience situated within a professional development school (PDS). Five undergraduate music education majors enrolled in either a string pedagogy class or an…

The Perceived Undergraduate Classroom Experiences of African American Women in Science, Technology, Engineering, and Mathematics (STEM)

ERIC Educational Resources Information Center

Holmes, Kimberly Monique

2013-01-01

The purpose of this dissertation study was to explore African-American women's perceptions of undergraduate STEM classroom experiences, and the ways in which those experiences have supported or hindered their persistence in physics majors. The major research question guiding this study was: How do African-American women perceive the climate and…

Family Context Predictors of Math Self-Concept among Undergraduate STEM Majors: An Analysis of Gender Differences

ERIC Educational Resources Information Center

Rinn, Anne N.; Miner, Kathi; Taylor, Aaron B.

2013-01-01

The purpose of the current study was to examine four family context variables (socioeconomic status, mother's level of education, father's level of education, and perceived family social support) as predictors of math self-concept among undergraduate STEM majors to better understand the gender differential in math self-concept. Participants…

Undergraduate Non-Music Major Preferences for Western Art Music

ERIC Educational Resources Information Center

Hash, Phillip M.

2009-01-01

The purpose of this study was to examine undergraduate non-music major (N = 95) preferences for Western art music. A survey of 15 musical examples was assembled consisting of five subtests, each with three excerpts from the Renaissance, Baroque, Classical, Romantic, or Twentieth Century. The mean preference rating of all excerpts combined was 4.68…

The Wretched Refuse of a Teeming Shore? A Critical Examination of the Quality of Undergraduate Marketing Students

ERIC Educational Resources Information Center

Aggarwal, Praveen; Vaidyanathan, Rajiv; Rochford, Linda

2007-01-01

What is the quality of students attracted to the marketing major relative to other business majors? Although some anecdotal evidence suggests that undergraduate marketing students are less quantitatively oriented, there has been no comprehensive assessment of the overall quality of marketing students relative to other business students. Using a…

Seeing Science through Symmetry

NASA Astrophysics Data System (ADS)

Gould, L. I.

Seeing Through Symmetry is a course that introduces non-science majors to the pervasive influence of symmetry in science. The concept of symmetry is usedboth as a link between subjects (such as physics, biology, mathematics, music, poetry, and art) and as a method within a subject. This is done through the development and use of interactive multimedia learning environments to stimulate learning. Computer-based labs enable the student to further explore the concept by being gently led from the arts to science. This talk is an update that includes some of the latest changes to the course. Explanations are given on methodology and how a variety of interactive multimedia tools contribute to both the lecture and lab portion of the course (created in 1991 and taught almost every semester since then, including one in Sweden).

Composing Science

NASA Astrophysics Data System (ADS)

Atkins, Leslie

2015-03-01

The course Scientific Inquiry at California State University was developed by faculty in biology, physics and English to meet ``writing proficiency'' requirements for non-science majors. Drawing from previous work in composition studies, the position that we take in this course is that we should be engaging students in writing that replicates the work that writing does in science, rather than replicating the particular structural conventions characteristic of scientific writing. That is, scientists use writing to have, remember, share, vet, challenge, and stabilize ideas, and our course requires students use writing to achieve those aims, rather than produce writing that obeys particular conventions of scientific writing. This talk will describe how we have integrated findings from composition studies with a course on scientific inquiry, and provide examples of how scientific communication has resulted from this dialogue. Funding by NSF #1140860.

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.

Helium and Sulfur Hexafluoride in Musical Instruments

NASA Astrophysics Data System (ADS)

Forinash, Kyle; Dixon, Cory L.

2014-11-01

The effects of inhaled helium on the human voice were investigated in a recent article in The Physics Teacher.1 As mentioned in that article, demonstrations of the effect are a popular classroom activity. If the number of YouTube videos is any indication, the effects of sulfur hexafluoride on the human voice are equally popular. However, there appears to be little information available on the effects of either of these gases on musical instruments.2 We describe here the results of a student project that involved measuring the frequency shifts in an organ pipe, a trumpet, and a trombone as the result of filling the instruments with these two gases. The project was one of several possible end-of-semester projects required in an elective science of sound course for non-science majors.

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.

On the Strategies of Graduation Thesis Writing Teaching of Translation Major Undergraduates Based on Eco-Translatology

ERIC Educational Resources Information Center

Lin, Wang

2017-01-01

Graduation thesis is an indispensible procedure for each undergraduate, which is crucial for successful graduation, employment, further study and even further development. However, due to most undergraduates' ignorance of academic writing and the deficiency of current thesis writing course, thesis writing ability can hardly be enhanced and…

Are They Ready to Teach with Technology? An Investigation of Technology Instruction in Music Teacher Education Programs

ERIC Educational Resources Information Center

Haning, Marshall

2016-01-01

The purpose of this research was to investigate the type, quantity, and effects of technology instruction currently being provided to undergraduate music education majors. Undergraduate participants (n = 46) at 10 degree-granting institutions completed an online survey on the technology instruction received during their undergraduate degree…

A Biochemistry of Human Disease Course for Undergraduate and Graduate Students.

ERIC Educational Resources Information Center

Glew, Robert H.; VanderJagt, David L.

2001-01-01

Describes the experiences of a medical school faculty who have been offering for more than 10 years a two-course series in the biochemistry of human disease to undergraduate students majoring in biochemistry, biology, or chemistry. Recommends the teaching of specialized, advanced courses to undergraduate, pre-professional students. (DDR)

Undergraduate Research Engagement at Major US Research Universities. Research & Occasional Paper Series: CSHE.14.13

ERIC Educational Resources Information Center

Douglass, John Aubrey; Zhao, Chun-Mei

2013-01-01

Bolstered by the recommendations of the 1998 Boyer Report, US federal agencies have put significant resources into promoting opportunities for undergraduates to engage in research. American universities and colleges have been creating support programs and curricular opportunities intended to create a "culture of undergraduate research."…

Anthropology and Jobs. A Guide for Undergraduates.

ERIC Educational Resources Information Center

Bernard, H. Russell; Sibley, Willis E.

Focus in this anthropology career guide is on suggestions about how to combine a degree in anthropology with supplementary training in order to qualify for a variety of positions after undergraduate study. A series of steps which the undergraduate major in anthropology might pursue to prepare for employment are outlined, and the significance of…

Not Too "College-Like," Not Too Normal: American Muslim Undergraduate Women's Gendered Discourses

ERIC Educational Resources Information Center

Mir, Shabana

2009-01-01

Building on an ethnographic study of American Muslim undergraduate women at two universities in Washington, D.C., I examine undergraduate Muslim women's construction of gendered discourses. Stereotypes feed into both majority and minority constructions of Muslim women's gendered identities. I highlight Muslim women's resistance to and adoption of…

A Research Based Sport Management Curricular Model: Undergraduate and Graduate Programs.

ERIC Educational Resources Information Center

Kelley, Dennie R.; And Others

This paper brings to closure a series of evaluation/action research studies on needs assessment by: (1) sport management personnel in sport business/agencies; (2) faculty in charge of curriculum in all known undergraduate and graduate sport management programs in higher education; and (3) undergraduate and graduate majors in sport management from…

Supporting Upper-Level Undergraduate Students in Building a Systems Perspective in a Botany Course

ERIC Educational Resources Information Center

Zangori, Laura; Koontz, Jason A.

2017-01-01

Undergraduate biology majors require biological literacy about the critical and dynamic relationships between plants and ecosystems and the effect human-made processes have on these systems. To support students in understanding systems relationships, we redesigned an undergraduate botany course using an ecological framework and embedded systems…

Involving Undergraduate Students in Educational Research: Achieving Two Goals at Once.

ERIC Educational Resources Information Center

Staik, Irene M.; Rogers, Julia S.

In a relatively small, predominantly undergraduate university, it is often hard to find the time and resources to conduct educational research. One small liberal arts college, the University of Montevallo (Alabama), has addressed this problem by involving undergraduate psychology majors in collaboration in educational research with faculty. It is…

Using Interactive Data Visualizations for Exploratory Analysis in Undergraduate Genomics Coursework: Field Study Findings and Guidelines

NASA Astrophysics Data System (ADS)

Mirel, Barbara; Kumar, Anuj; Nong, Paige; Su, Gang; Meng, Fan

2016-02-01

Life scientists increasingly use visual analytics to explore large data sets and generate hypotheses. Undergraduate biology majors should be learning these same methods. Yet visual analytics is one of the most underdeveloped areas of undergraduate biology education. This study sought to determine the feasibility of undergraduate biology majors conducting exploratory analysis using the same interactive data visualizations as practicing scientists. We examined 22 upper level undergraduates in a genomics course as they engaged in a case-based inquiry with an interactive heat map. We qualitatively and quantitatively analyzed students' visual analytic behaviors, reasoning and outcomes to identify student performance patterns, commonly shared efficiencies and task completion. We analyzed students' successes and difficulties in applying knowledge and skills relevant to the visual analytics case and related gaps in knowledge and skill to associated tool designs. Findings show that undergraduate engagement in visual analytics is feasible and could be further strengthened through tool usability improvements. We identify these improvements. We speculate, as well, on instructional considerations that our findings suggested may also enhance visual analytics in case-based modules.

Using Interactive Data Visualizations for Exploratory Analysis in Undergraduate Genomics Coursework: Field Study Findings and Guidelines

PubMed Central

Kumar, Anuj; Nong, Paige; Su, Gang; Meng, Fan

2016-01-01

Life scientists increasingly use visual analytics to explore large data sets and generate hypotheses. Undergraduate biology majors should be learning these same methods. Yet visual analytics is one of the most underdeveloped areas of undergraduate biology education. This study sought to determine the feasibility of undergraduate biology majors conducting exploratory analysis using the same interactive data visualizations as practicing scientists. We examined 22 upper level undergraduates in a genomics course as they engaged in a case-based inquiry with an interactive heat map. We qualitatively and quantitatively analyzed students’ visual analytic behaviors, reasoning and outcomes to identify student performance patterns, commonly shared efficiencies and task completion. We analyzed students’ successes and difficulties in applying knowledge and skills relevant to the visual analytics case and related gaps in knowledge and skill to associated tool designs. Findings show that undergraduate engagement in visual analytics is feasible and could be further strengthened through tool usability improvements. We identify these improvements. We speculate, as well, on instructional considerations that our findings suggested may also enhance visual analytics in case-based modules. PMID:26877625

Electronics for Everyone.

ERIC Educational Resources Information Center

Mooney, P. M.

1979-01-01

Describes two laboratory courses in electronics designed for nonscience students. The courses require no prerequisites in physics or in mathematics, and emphasis is put on the laboratory aspect of electronics, such as building and testing various electronic circuits. (GA)

A model for undergraduate physics major outcomes objectives

NASA Astrophysics Data System (ADS)

Taylor, G. R.; Erwin, T. Dary

1989-06-01

Concern with assessment of student outcomes of undergraduate physics major programs is rapidly rising. The Southern Association of Colleges and Schools and many other regional and state organizations are requiring explicit outcomes assessment in the accrediting process. The first step in this assessment process for major programs is the establishment of student outcomes objectives. A model and set of physics outcomes (educational) objectives that were developed by the faculty in the Physics Department at James Madison University are presented.

Teaching Sustainable Water Resources and Low Impact Development: A Project Centered Course for First-Year Undergraduates

NASA Astrophysics Data System (ADS)

Cianfrani, C. M.

2009-12-01

Teaching Sustainable Water Resources and Low Impact Development: A Project Centered Course for First-Year Undergraduates Christina M. Cianfrani Assistant Professor, School of Natural Science, Hampshire College, 893 West Avenue, Amherst, MA 01002 Sustainable water resources and low impact development principles are taught to first-year undergraduate students using an applied design project sited on campus. All students at Hampshire College are required to take at least one natural science course during their first year as part of their liberal arts education. This requirement is often met with resistance from non-science students. However, ‘sustainability’ has shown to be a popular topic on campus and ‘Sustainable Water Resources’ typically attracts ~25 students (a large class size for Hampshire College). Five second- or third-year students are accepted in the class as advanced students and serve as project leaders. The first-year students often enter the class with only basic high school science background. The class begins with an introduction to global water resources issues to provide a broad perspective. The students then analyze water budgets, both on a watershed basis and a personal daily-use basis. The students form groups of 4 to complete their semester project. Lectures on low impact design principles are combined with group work sessions for the second half of the semester. Students tour the physical site located across the street from campus and begin their project with a site analysis including soils, landcover and topography. They then develop a building plan and identify preventative and mitigative measures for dealing with stormwater. Each group completes TR-55 stormwater calculations for their design (pre- and post-development) to show the state regulations for quantity will be met with their design. Finally, they present their projects to the class and prepare a formal written report. The students have produced a wide variety of creative, mostly practical designs. Student feedback about the course has included high praise for the applied nature of the project as well as the use of advanced students to lead the groups and help provide guidance throughout the project. Example of low impact development using clustered housing, rain gardens (small dots), green roofs (circles on house sites), vegetated swales along roadways, infiltration area, and a reforested buffer (along right edge).

Assessment of the benefits of a summer undergraduate research program for physics and chemistry majors

NASA Astrophysics Data System (ADS)

Hughes, Chris; MacDonald, Gina

2006-11-01

Presently at James Madison University, there are slightly more than 100 physics majors and 150 chemistry majors. Each summer, a significant fraction of these students participate in either the chemistry or interdisciplinary materials science Research Experiences for Undergraduates (REU) program on campus. This provides a large pool of students from which to draw data comparing the influence of undergraduate research on both classroom performance and attitudes toward science as a profession. By analyzing the grade point averages of chemistry and physics majors, we have shown slightly larger increases from spring semester to fall semester for students who participated in the REU than those who did not. We have also measured changes in attitudes using surveys of the students both at the beginning and at the end of the summer experience. An analysis of these surveys will be presented.

Prevalence of depression and its correlates among undergraduates in Sri Lanka.

PubMed

Amarasuriya, Santushi Devini; Jorm, Anthony Francis; Reavley, Nicola Jane

2015-06-01

There is a dearth of mental health research on undergraduates in Sri Lanka. This study examines the prevalence of depression in a sample of Sri Lankan undergraduates, their exposure to threatening life events and the predictors of their depression. Responses of 4304 undergraduates were obtained on the Patient Health Questionnaire-9 and a measure of exposure to threatening life events, with binary logistic regression models used to identify the demographic and life event correlates of screening positive for Major Depressive Disorder (MDD). PHQ-9 diagnoses of 'Major' and 'Other' depression were obtained by 9.3% and 13.5% of undergraduates, respectively. A higher likelihood of MDD was seen among those who were older and those living in hostels (compared to home), although no differences were seen between genders or those studying in different faculties. Likelihood of MDD was higher in undergraduates exposed to multiple threatening life events as well as those exposed to physical threat; family deaths; romantic break-ups; a problem with a close associate; educational difficulties; unemployment and domestic violence, and among male undergraduates harassed by another student. MDD is prevalent in these undergraduates and universities need to develop services to assist them. Such services may also need to focus on supporting those who have experienced threatening life events, particularly those that arise as a result of being an undergraduate, as these may increase the risk of MDD. Copyright © 2015 Elsevier B.V. All rights reserved.

A Time Hazard Analysis of Student Persistence: A US University Undergraduate Mathematics Major Experience

ERIC Educational Resources Information Center

Bahi, Saïd; Higgins, Devin; Staley, Patrick

2015-01-01

Individual level data for the entire cohort of undergraduate mathematics students of a relatively small US public university was used to estimate the risk that a student will switch major to another one before degree completion. The data set covers the period from 1999 to 2006. Survival tables and logistic models were estimated and used to discuss…

Contrasts Between Science and Humanities Majors in Undergraduate Outcomes and Activities. ASHE Annual Meeting Paper.

ERIC Educational Resources Information Center

Pace, C. Robert

This paper seeks evidence of a culture gulf, first voiced by C.P. Snow in 1959, between science and humanities as reflected in the understanding which undergraduate science and humanities majors have of the other field. The 1995 study evaluated responses of students at the University of California Los Angeles (UCLA) and California's Humboldt State…

A Study of Michigan State University Undergraduate Music Performance Students' Perceptions of Their Experiences and Their Place in the University Setting

ERIC Educational Resources Information Center

Vatne, Stacy Jennifer

2010-01-01

The purpose of my study was to understand undergraduate music performance students' perceptions of their experiences as music performance majors and to assess music student positionality. Music student positionality, music students' perceptions of their place in the university setting, involves music majors' perceptions of their relationships to…

Modelling the Perceived Value of Compulsory English Language Education in Undergraduate Non-Language Majors of Japanese Nationality

ERIC Educational Resources Information Center

Rivers, Damian J.

2012-01-01

Adopting mixed methods of data collection and analysis, the current study models the "perceived value of compulsory English language education" in a sample of 138 undergraduate non-language majors of Japanese nationality at a national university in Japan. During the orientation period of a compulsory 15-week English language programme,…

Assessing High School Students’ Pro-Environmental Behaviour

NASA Astrophysics Data System (ADS)

Hidayah, N.; Agustin, R. R.

2017-09-01

This paper aims to reveal students’ pro-environmental behavior in a High School. Self-reported behavior assessment was administered in this study involving students with age range 15 to 18 years. Pro-environmental behavior in this study comprises six domains. Those are recycling, waste avoidance, consumerism, energy conservation, mobility and transportation, and vicarious conservation behavior. Pro-environmental behavior (PEB) of science class students was compared to behavior of non-science class students. Effect of students’ grade level and extracurricular activity on the behavior was evaluated. Study revealed that science could improve students’ PEB. It is because environmental topics are covered in science class. Student’s involvement in extracurricular activity may enhance PEB as well. In conclusion, students’ PEB is influenced by class program (science or non-science) but it is not influenced by time length in learning science. This finding could be consider by science educator in choosing strategy to enhance student’s pro-environmental behaviour.

Two-Year Community: A 3+8 Model of Undergraduate Research for Community College STEM Majors

ERIC Educational Resources Information Center

Leggett-Robinson, Pamela M.; Villa, Brandi C.; Mooring, Suazette Reid

2015-01-01

This article describes the implementation of an innovative undergraduate research model for students attending a two-year institution. It gives students an opportunity to engage in undergraduate research at nearby four-year institutions, which provides a foundation that allows them to successfully make the transition to STEM programs at the…

"Critical Liberal Education": An Undergraduate Pedagogy for Teacher Candidates in Socially Diverse University Settings

ERIC Educational Resources Information Center

Chavez-Reyes, Christina

2010-01-01

This article addresses the lack of attention universities have given to adjusting liberal education, the undergraduate major for teachers in California, to the increase of multi-ethnic, multi-racial, and social class heterogeneity in state universities. This article argues for a revised pedagogy for undergraduate liberal arts education for teacher…

An Outline of a Proposed Five- plus Three-Year Combined Undergraduate-Master's Degree for Clinical Medicine Majors at Nanjing Medical University

ERIC Educational Resources Information Center

Gao, Xing-Ya; Yu, Rong-Bin; Shen, Hong-Bing; Chen, Qi

2014-01-01

To build an effective model to train excellent doctors, Nanjing Medical University has proposed a five- plus three-year combined undergraduate-master's clinical medicine degree program. The program integrates undergraduate education, the education of research students, and standardized doctor residency training into a single system, allowing…

Pursuing Benefit or Avoiding Detriment: Term-Time Job Selection of Sports Major Undergraduates

ERIC Educational Resources Information Center

Wu, Huan-Hung; Chen, Shan-Hua

2013-01-01

Higher education expansion accompanied with the tuition rising has resulted in the increasing number of term-time employed students in many countries. Taiwan is no exception to this trend. Thus, there were a few studies to explore the impact of term-time employment on undergraduates. However, very few researchers focus on how undergraduates make…

Undergraduates Achieve Learning Gains in Plant Genetics through Peer Teaching of Secondary Students

ERIC Educational Resources Information Center

Chrispeels, H. E.; Klosterman, M. L.; Martin, J. B.; Lundy, S. R.; Watkins, J. M.; Gibson, C. L.; Muday, G. K.

2014-01-01

This study tests the hypothesis that undergraduates who peer teach genetics will have greater understanding of genetic and molecular biology concepts as a result of their teaching experiences. Undergraduates enrolled in a non-majors biology course participated in a service-learning program in which they led middle school (MS) or high school (HS)…

Bring Your Own Device: A Digital Notebook for Undergraduate Biochemistry Laboratory Using a Free, Cross-Platform Application

ERIC Educational Resources Information Center

Van Dyke, Aaron R.; Smith-Carpenter, Jillian

2017-01-01

The majority of undergraduates own a smartphone, yet fewer than half view it as a valuable learning technology. Consequently, a digital laboratory notebook (DLN) was developed for an upper-division undergraduate biochemistry laboratory course using the free mobile application Evernote. The cloud-based DLN capitalized on the unique features of…

Explorations: A Research-Based Program Introducing Undergraduates to Diverse Biology Research Topics Taught by Grad Students and Postdocs

ERIC Educational Resources Information Center

Brownell, Sara E.; Khalfan, Waheeda; Bergmann, Dominique; Simoni, Robert

2013-01-01

Undergraduate biology majors are often overwhelmed by and underinformed about the diversity and complexity of biological research that is conducted on research-intensive campuses. We present a program that introduces undergraduates to the diversity and scope of biological research and also provides unique teaching opportunities for graduate…

The perspectives of nonscience-major students on success in community college biology

NASA Astrophysics Data System (ADS)

Kim-Rajab, Oriana Sharon

With more than 36% of nonscience-major community college students unable to successfully complete their general life science courses, graduation and transfer rates to four-year universities are negatively affected. Many students also miss important opportunities to gain some level of science proficiency. In an effort to address the problem of poor science achievement, this research project determined which factors were most significantly related to student success in a community college biology course. It also aimed to understand the student perspectives on which modifications to the course would best help them in the pursuit of success. Drawing heavily on the educational psychology schools of thought on motivation and self-efficacy of science learning, this study surveyed and interviewed students on their perceptions of which factors were related to success in biology and the changes they believed were needed in the course structure to improve success. The data revealed that the primary factors related to student success are the students' study skills and their perceived levels of self-efficacy. The findings also uncovered the critical nature of the professor's role in influencing the success of the students. After assessing the needs of the community college population, meaningful and appropriate curriculum and pedagogical reforms could be created to improve student learning outcomes. This study offered recommendations for reforms that can be used by science practitioners to provide a more nurturing and inspiring environment for all students. These suggestions revolved around the role of the instructor in influencing the self-efficacy and study skills of students. Providing more opportunities for students to interact in class, testing more frequently, establishing peer assistance programs, managing better the course material, and making themselves more available to students were at the forefront of the list. Examples of the potential benefits of increasing community college science success rates include improvement of student transfer rates and better preparation for employment. Because of the increasing importance of science in this modern age, improving science success rates can also have long-lasting positive effects on students' abilities to make decisions about their health, the economy, and to be productive citizens within our science-oriented society.

Undergraduate Research in Physics as a course for Engineering and Computer Science Majors

NASA Astrophysics Data System (ADS)

O'Brien, James; Rueckert, Franz; Sirokman, Greg

2017-01-01

Undergraduate research has become more and more integral to the functioning of higher educational institutions. At many institutions undergraduate research is conducted as capstone projects in the pure sciences, however, science faculty at some schools (including that of the authors) face the challenge of not having science majors. Even at these institutions, a select population of high achieving engineering students will often express a keen interest in conducting pure science research. Since a foray into science research provides the student the full exposure to the scientific method and scientific collaboration, the experience can be quite rewarding and beneficial to the development of the student as a professional. To this end, the authors have been working to find new contexts in which to offer research experiences to non- science majors, including a new undergraduate research class conducted by physics and chemistry faculty. An added benefit is that these courses are inherently interdisciplinary. Students in the engineering and computer science fields step into physics and chemistry labs to solve science problems, often invoking their own relevant expertise. In this paper we start by discussing the common themes and outcomes of the course. We then discuss three particular projects that were conducted with engineering students and focus on how the undergraduate research experience enhanced their already rigorous engineering curriculum.

German 450: Introduction to Business Operations in Germany. Initiating the Integration Process into the International Business Environment for German Majors at the Undergraduate and Graduate Levels.

ERIC Educational Resources Information Center

Becker, Claudia A.

The redesign of a course on German business, taught at the University of Illinois at Chicago, is described. The course, intended for both undergraduate and graduate German majors, initially described and defined German institutions and common business practices and explored differences in historical and cultural backgrounds. Course revision…

Developing the Emotional Intelligence of Undergraduate Music Education Majors: An Exploratory Study Using Bradberry and Greaves' (2009) "Emotional Intelligence 2.0"

ERIC Educational Resources Information Center

McGinnis, Emily J.

2018-01-01

Research focused on the relationship of emotional intelligence (EI) to academic and professional success in education, and whether and how it might be taught and learned, is inconclusive. The purpose of this study was to examine the degree to which undergraduate music education majors experienced a change in EI after implementing strategies from…

Controlled Free Choice Method: A Proposal for a New Undergraduate Major Selection Policy at King Fahd University of Petroleum and Minerals

ERIC Educational Resources Information Center

Al-Dosarya, Adel S.; Rahman, Syed Masiur

2006-01-01

The prevalent undergraduate major selection at King Fahd University of Petroleum & Minerals (KFUPM) mostly depends on the student's choice regardless of academic abilities and qualifications. Owing to the adoption of this Free Choice Method (FCM), the number of students will continue to grow and external pressures at the national level may…

Undergraduate Understanding of Climate Change: The Influences of College Major and Environmental Group Membership on Survey Knowledge Scores

ERIC Educational Resources Information Center

Huxster, Joanna K.; Uribe-Zarain, Ximena; Kempton, Willett

2015-01-01

A survey covering the scientific and social aspects of climate change was administered to examine U.S. undergraduate student mental models, and compare knowledge between groups based on major and environmental group membership. A Knowledge Score (scale 0-35, mean score = 17.84) was generated for respondents at two, central East Coast, U.S.…

Investigating the Target Language Usage in and outside Business English Classrooms for Non-English Major Undergraduates at a Chinese University

ERIC Educational Resources Information Center

Xie, Qing

2017-01-01

This article reports an investigative study on the target language use in and outside business English classrooms for non-English major undergraduates in a Chinese university context. The aims of the study are to identify the actual situation of target language use in business English teaching and to suggest ways for improvements. The study uses…

Linguistic Knowledge Aspects in Academic Reading: Challenges and Deployed Strategies by English-Major Undergraduates at a Jordanian Institution of Higher Education

ERIC Educational Resources Information Center

Albashtawi, Abeer H.; Jaganathan, Paramaswari; Singh, Manjet

2016-01-01

This study aimed to investigate the linguistic knowledge aspect in academic reading, the challenges and the deployed strategies by English major undergraduates at a Jordanian institution of higher education. The importance of the study is attributed to the importance of the academic reading at university which is closely related to the academic…

"To Finally Understand How to Do Well Is the Hardest Part": Seeing the Transfer Journey, Research and Research-Inclusive Careers through the Eyes of Undergraduate Transfer Students Pursuing Science Majors

ERIC Educational Resources Information Center

Ewers, Tola Latola Marie

2014-01-01

This multi-case qualitative study explored how University of Wisconsin-Madison (UW-Madison) undergraduate science major transfer students' backgrounds, transfer journey, previous research and/or other academic experiences and future aspirations shaped perceptions and beliefs about research, research-inclusive careers and integration and engagement…