Infusing Quantitative Approaches throughout the Biological Sciences Curriculum

ERIC Educational Resources Information Center

Thompson, Katerina V.; Cooke, Todd J.; Fagan, William F.; Gulick, Denny; Levy, Doron; Nelson, Kären C.; Redish, Edward F.; Smith, Robert F.; Presson, Joelle

2013-01-01

A major curriculum redesign effort at the University of Maryland is infusing all levels of our undergraduate biological sciences curriculum with increased emphasis on interdisciplinary connections and quantitative approaches. The curriculum development efforts have largely been guided by recommendations in the National Research Council's "Bio…

A System-Science Approach towards Model Construction for Curriculum Development.

ERIC Educational Resources Information Center

Chang, Ren-Jung; Yang, Hui-Chin

A new morphological model based on modern system science and engineering is constructed and proposed for curriculum research and development. A curriculum system is recognized as an engineering system that constitutes three components: clients, resources, and knowledge. Unlike the objective models that are purely rational and neatly sequential in…

Life Science Curriculum Guide. Bulletin 1614.

ERIC Educational Resources Information Center

Louisiana State Dept. of Education, Baton Rouge. Div. of Academic Programs.

This curriculum guide, developed to establish statewide curriculum standards for the Louisiana Competency-based Education Program, contains the minimum competencies and process skills that should be included in a life science course. It consists of: (1) a rationale for an effective science program; (2) a list and description of four major goals of…

Multiple Aims in the Development of a Major Reform of the National Curriculum for Science in England

NASA Astrophysics Data System (ADS)

Ryder, Jim; Banner, Indira

2011-03-01

In the context of a major reform of the school science curriculum for 14-16-year-olds in England, we examine the aims ascribed to the reform, the stakeholders involved, and the roles of differing values and authority in its development. This reform includes an emphasis on socioscientific issues and the nature of science; curriculum trends of international relevance. Our analysis identifies largely 'instrumental' aims, with little emphasis on 'intrinsic' aims and associated values. We identify five broad categories of stakeholders focusing on different aims with, for example, a social, individual, political, or economic emphasis. We suggest that curriculum development projects reflecting largely social and individual aims were appropriated by other stakeholders to serve political and economic aims. We argue that a curriculum reform body representing all stakeholder interests is needed to ensure that multiple aims are considered throughout the curriculum reform process. Within such a body, the differentiated character of the science teaching community would need to be represented.

Mi-STAR: Designing Integrated Science Curriculum to Address the Next Generation Science Standards and Their Foundations

NASA Astrophysics Data System (ADS)

Gochis, E. E.; Huntoon, J. E.

2015-12-01

Mi-STAR (Michigan Science Teaching and Assessment Reform, http://mi-star.mtu.edu/) was funded by the Herbert H. and Grace A. Dow Foundation to reform K-12 science education to present science as an integrated body of knowledge that is applied to address societal issues. To achieve this goal, Mi-STAR is developing an integrated science curriculum for the middle grades that will be aligned with the Next Generation Science Standards (NGSS). Similar to the geosciences, the curriculum requires the integration of science, engineering and math content to explore 21st-century issues and demonstrates how these concepts can be used in service of society. The curriculum is based on the Mi-STAR Unit Specification Chart which pairs interdisciplinary themes with bundled NGSS Performance Expectations. Each unit is developed by a collaborative team of K-12 teachers, university STEM content experts and science education experts. Prior to developing a unit, each member on the team attends the on-line Mi-STAR Academy, completing 18+ hours of professional development (PD). This on-line PD program familiarizes teachers and experts with necessary pedagogical and content background knowledge, including NGSS and three-dimensional learning. With this background, teams use a staged, backwards design process to craft a multi-week unit based on a series of performance based tasks, or 'challenges' that engage students in actively doing science and engineering. Each unit includes Disciplinary Core Ideas from multiple disciplines, which focus on local and familiar examples that demonstrate the relevance of science in student's lives. Performance-based assessments are interwoven throughout the unit. Mi-STAR units will go through extensive pilot testing in several school districts across the state of Michigan. Additionally, the Mi-STAR program will develop teacher professional development programs to support implementation of the curriculum and design a pre-service teacher program in integrated science. We will share preliminary results on the collaborative Mi-STAR process of designing integrated science curriculum to address NGSS.

How Does a Community of Principals Develop Leadership for Technology-Enhanced Science?

ERIC Educational Resources Information Center

Gerard, Libby F.; Bowyer, Jane B.; Linn, Marcia C.

2010-01-01

Active principal leadership can help sustain and scale science curriculum reform. This study illustrates how principal leadership developed in a professional learning community to support a technology-enhanced science curriculum reform funded by the National Science Foundation. Seven middle school and high school principals in one urban-fringe…

Taiwanese Science and Life Technology Curriculum Standards and Earth Systems Education

ERIC Educational Resources Information Center

Chang, Chun-Yen

2005-01-01

In the past several years, curriculum reform has received increasing attention from educators in many countries around the world. Recently, Taiwan has developed new Science and Life Technology Curriculum Standards (SaLTS) for grades 1-9. SaLTS features a systematic way for developing students' understanding and appreciation of…

A Perspective on the Intended Science Curriculum in Iceland and its `Transformation' over a Period of 50 Years

NASA Astrophysics Data System (ADS)

Thorolfsson, Meyvant; Finnbogason, Gunnar E.; Macdonald, Allyson

2012-11-01

In recent decades, a consensus has emerged among educators and scientists that all compulsory school students need good science education. The debate about its purpose and nature as a school subject in an emerging information society has not been as conclusive. To further understand this, it helps to examine how the science curriculum has transformed and what forces have shaped it as a core curricular area over time. This article sheds light on the transformation of the science curriculum for compulsory schools in Iceland in force from 1960 to 2010. Using criteria based on curriculum ideologies regarding the function of learners, instructors and subject matter in the learning process and the orientation of content and product versus process and development, it offers findings from content analysis of the intended science curriculum. The official curriculum was studied and conceptualised as it has evolved over time. The curriculum developers appear to have been striving for a compromise between conflicting views, resulting in what the authors of this article conceive as a 'kaleidoscopic quilt' of ideas over the period studied.

The Innovative Immersion of Mobile Learning into a Science Curriculum in Singapore: an Exploratory Study

NASA Astrophysics Data System (ADS)

Sun, Daner; Looi, Chee-Kit; Wu, Longkai; Xie, Wenting

2016-08-01

With advancements made in mobile technology, increasing emphasis has been paid to how to leverage the affordances of mobile technology to improve science learning and instruction. This paper reports on a science curriculum supported by an inquiry-based framework and mobile technologies. It was developed by teachers and researchers in a multiyear program of school-based research. The foci of this paper is on the design principles of the curriculum and its enactment, and the establishment of a teacher learning community. Through elucidating the design features of the innovative curriculum and evaluating teacher and student involvement in science instruction and learning, we introduce the science curriculum, called Mobilized 5E Science Curriculum (M5ESC), and present a representative case study of how one experienced teacher and her class adopted the curriculum. The findings indicate the intervention promoted this teacher's questioning competency, enabled her to interact with students frequently and flexibly in class, and supported her technology use for promoting different levels of cognition. Student learning was also improved in terms of test achievement and activity performance in and out of the classroom. We propose that the study can be used to guide the learning design of mobile technology-supported curricula, as well as teacher professional development for curriculum enactment.

Contextualized science? An Indian experience

NASA Astrophysics Data System (ADS)

Koul, Ravinder

1997-11-01

This study asserts that science is contextualized and should therefore be taught as contextualized. Works of major philosophers in 20th century history, philosophy and sociology of science and recent developments in cognition are discussed in developing a foundation and outlining three themes for contextualized science: (a) science curriculum should emphasize scientific methodology through the generation and testing of knowledge in a specific context, (b) it should validate and evaluate everyday contextual experiences, and (c) develop a context for action by engaging in science, technology and society issues. School science is a major instrument for diffusion and utilization of scientific knowledge. In India, textbooks are often the only classroom source of information for students other than the teacher. The most widely used standard curriculum materials in Indian schools are the National Council of Educational Research and Training (NCERT) textbooks. For schools in the Hoshingabad district of Madhya Pradesh, the state prescribes NCERT materials and materials developed for the Hoshingabad Science Teaching Program (HSTP), a grassroots science education initiative. In this study, the investigation of these curriculum materials and interviews with educators (curriculum developers/textbook authors/teachers at New Delhi and Hoshingabad) are used to establish criteria for both the need and the feasibility of contextualized science. Results of the investigation indicate that the centralized NCERT system of curriculum development has undermined context specific treatment of subject matter in their textbooks. While HSTP attempted to contextualize science in rural schools, the present status of the program may be interpreted as either development and legitimization of another standardized curriculum, or, as the culmination of a gradual erosion and dissipation of conceptually valid and concrete educational practices. There are major situational and institutional constraints that impede the use of contextualized instructional materials. Furthermore, teachers' reflections on science in two curricula reveal limited conceptions on the nature of science and a preference for the abstract science of NCERT. The findings indicate that teacher understanding of methodological and epistemological point of view is essential but insufficient to provide a context for action. Teacher training must also incorporate ontological considerations in reform efforts to contextualize school science.

MICHIGAN SCIENCE CURRICULUM COMMITTEE JUNIOR HIGH SCHOOL PROJECT. (TITLE SUPPLIED).

ERIC Educational Resources Information Center

VAN DEVENTER, W.C.

REPORTED ARE THE RESULTS OF A CURRICULUM RESEARCH PROJECT OF THE MICHIGAN SCIENCE CURRICULUM COMMITTEE JUNIOR HIGH SCHOOL PROJECT FOR USE IN TEACHING JUNIOR HIGH SCHOOL UNIFIED SCIENCE. THE COMMITTEE USED PREVIOUS RESEARCH DATA, PARTICULARLY IN THE AREA OF INSTRUCTION AND INQUIRY TRAINING, TO DEVELOP 13 UNITS INCLUDING 55 OPEN-ENDED LABORATORY…

Materials and Fabrication Methods I. A Study Guide of the Science and Engineering Technician Curriculum.

ERIC Educational Resources Information Center

Lindberg, Andrew; And Others

This study guide is part of a curriculum entitled Science and Engineering Technician (SET) Curriculum, a program of studies which integrates elements from the disciplines of chemistry, physics, mathematics, mechanical technology, and electronic technology. The purpose of this national curriculum development project was to provide a framework for…

Supporting Science Teachers in Alignment with State Curriculum Standards through Professional Development: Teachers' Preparedness, Expectations and Their Fulfillment

NASA Astrophysics Data System (ADS)

Paik, Sunhee; Zhang, Meilan; Lundeberg, Mary A.; Eberhardt, Jan; Shin, Tae Seob; Zhang, Tianyi

2011-08-01

Since A Nation at Risk was released in the 1980s, standards-based reform has been the most dominant trend in American educational policy, and the No Child Left Behind Act pushed the trend further by requiring states to develop rigorous curriculum standards. Though much has been said about these new standards, less has been said about whether or how well professional development helps teachers link their instruction to these standards. This study examined the impact of a professional development program for K-12 science teachers in helping teachers meet state curriculum standards. Seventy-five science teachers in Michigan participated in a 2-week summer workshop that used Problem-Based Learning for improving teachers' content knowledge and pedagogical content knowledge. Researchers surveyed participating teachers about the change of teachers' preparedness for standards-based teaching, their expectations to meet state curriculum standards, and whether their expectations were met. In addition, the usefulness of workshop activities was examined. Data analysis showed that to align teaching with state curriculum standards, participating teachers expected to learn instructional strategies and enhance science content knowledge through professional development, and by and large their expectations were well met. Collaboration with colleagues and facilitators helped teachers achieve their goals in terms of teaching within state curriculum standards. These findings have important implications for designing professional development to help teachers align instruction with curriculum standards.

A self-study of designing and implementing an inquiry-based chemistry course for elementary education majors

NASA Astrophysics Data System (ADS)

Larson, Teresa

2011-12-01

This self-study examines my experiences with implementing an inquiry-based version of a chemistry course (Chemistry 299) designed for elementary education majors. The inquiry-based curriculum design and teaching strategies that I implement in Chemistry 299 is the focus of this study. Since my previous education and professional experiences were in the physical sciences, I position myself in this study as a scientist who engages in self-study as a form of professional development for the purpose of developing an inquiry-based curriculum and instructional practices. My research provides an inside perspective of the curriculum development process. This process involves implementing the inquiry-oriented ideas and knowledge I acquired in my graduate studies to design the curriculum and influence my teaching practice. My analysis of the curriculum and my instruction is guided by two questions: What are the strengths and weaknesses of the inquiry-based Chemistry 299 curriculum design? What does the process of developing my inquiry-based teaching practice entail and what makes is challenging? Schwab's (1973) The Practical 3: Translation into Curriculum serves as the theoretical framework for this study because of the emphasis Schwab places on combining theoretical and practical knowledge in the curriculum development process and because of the way he characterizes the curriculum. The findings in this study are separated into curriculum and instruction domains. First, the Chemistry 299 curriculum was designed to make the epistemological practices of scientists "accessible" to students by emphasizing epistemic development with respect to their ideas about scientific inquiry and science learning. Using student learning as a gauge for progress, I identify specific design elements that developed transferable inquiry skills as a means to support scientific literacy and pre-service teacher education. Second, the instruction-related findings built upon the insight I gained through my analysis of the curriculum. The data reveals four areas of inner conflict I dealt with throughout the study that related to underlying beliefs I held about science teaching and learning. The implications of the study position the Chemistry 299 curriculum in the field and speak to issues related to developing science courses for elementary education majors and professional development for scientists.

Science and Engineering Graphics I. A Study Guide of the Science and Engineering Technician Curriculum.

ERIC Educational Resources Information Center

Craig, Jerry; Stapleton, Jerry

This study guide is part of a program of studies entitled Science and Engineering Technician (SET) Curriculum. The SET Curriculum was developed for the purpose of training technicians in the use of electronic instruments and their applications. It integrates elements from the disciplines of chemistry, physics, mathematics, mechanical technology,…

The Pursuit of Humanity: Curriculum Change in English School Science

ERIC Educational Resources Information Center

Donnelly, Jim; Ryder, Jim

2011-01-01

This paper is concerned with the recent history of science curriculum reform in England, though it traces these developments back to the mid-nineteenth century. It first reviews approaches to science in the curriculum until the mid-1960s, identifying the curricular settlement of the postwar years and the beginning of the so-called "swing from…

Community Resource Curriculum Development: Grades 3-4.

ERIC Educational Resources Information Center

Bentley, Michael L.; And Others

This manual was developed by the Community Resource Curriculum Development Project (CRCDP), a cooperative project to develop multi-disciplinary, multi-ethnic, multi-cultural science/social sciences teaching units based upon the Illinois State Goals for Learning. This manual contains seven teaching units that include several experience-based…

Reinventing the Science Curriculum

ERIC Educational Resources Information Center

Bybee, Rodger W.; Van Scotter, Pamela

2007-01-01

For many, the dominant model of curriculum development in science includes generating a topic, clarifying science content, identifying activities associated with the topic, and figuring out an assessment. Unfortunately, this approach tends to overemphasize activities and underemphasize mastery of science concepts and the process of scientific…

Professional Learning Communities (PLCs) as a Means for School-Based Science Curriculum Change

NASA Astrophysics Data System (ADS)

Browne, Christi L.

The challenge of school-based science curriculum change and educational reform is often presented to science teachers and departments who are not necessarily prepared for the complexity of considerations that change movements require. The development of a Professional Learning Community (PLC) focused on a science department's curriculum change efforts, may provide the necessary tools to foster sustainable school-based curriculum science changes. This research presents a case study of an evolving science department PLC consisting of 10 middle school science teachers from the same middle school and their efforts of school-based science curriculum change. A transformative mixed model case study with qualitative data and deepened by quantitative analysis, was chosen to guide the investigation. Collected data worked to document the essential developmental steps, the occurrence and frequency of the five essential dimensions of successful PLCs, and the influences the science department PLC had on the middle school science department's progression through school-based science curriculum change, and the barriers, struggles and inhibiting actions of the science department PLC. Findings indicated that a science department PLC was unique in that it allowed for a focal science departmental lens of science curriculum change to be applied to the structure and function of the PLC and therefore the process, proceedings, and results were directly aligned to and driven by the science department. The science PLC, while logically difficult to set-up and maintain, became a professional science forum where the middle school science teachers were exposed to new science teaching and learning knowledge, explored new science standards, discussed effects on student science learning, designed and critically analyzed science curriculum change application. Conclusions resulted in the science department PLC as an identified tool providing the ability for science departmental actions to lead to outcomes of science curriculum change improvements with the consideration but not the dictation of the larger school community and state agendas. Thus, the study's results work to fuse previously separated research on general PLCs and curriculum change efforts into a cohesive understanding of the unexplored potential of a science PLC and school-based science curriculum change.

Comparing Two Inquiry Professional Development Interventions in Science on Primary Students' Questioning and Other Inquiry Behaviours

NASA Astrophysics Data System (ADS)

Nichols, Kim; Burgh, Gilbert; Kennedy, Callie

2017-02-01

Developing students' skills to pose and respond to questions and actively engage in inquiry behaviours enables students to problem solve and critically engage with learning and society. The aim of this study was to analyse the impact of providing teachers with an intervention in inquiry pedagogy alongside inquiry science curriculum in comparison to an intervention in non-inquiry pedagogy alongside inquiry science curriculum on student questioning and other inquiry behaviours. Teacher participants in the comparison condition received training in four inquiry-based science units and in collaborative strategic reading. The experimental group, the community of inquiry (COI) condition, received training in facilitating a COI in addition to training in the same four inquiry-based science units. This study involved 227 students and 18 teachers in 9 primary schools across Brisbane, Australia. The teachers were randomly allocated by school to one of the two conditions. The study followed the students across years 6 and 7 and students' discourse during small group activities was recorded, transcribed and coded for verbal inquiry behaviours. In the second year of the study, students in the COI condition demonstrated a significantly higher frequency of procedural and substantive higher-order thinking questions and other inquiry behaviours than those in the comparison condition. Implementing a COI within an inquiry science curriculum develops students' questioning and science inquiry behaviours and allows teachers to foster inquiry skills predicated by the Australian Science Curriculum. Provision of inquiry science curriculum resources alone is not sufficient to promote the questioning and other verbal inquiry behaviours predicated by the Australian Science Curriculum.

Physics of Mechanical, Gaseous, and Fluid Systems. A Study Guide of the Science and Engineering Technician Curriculum.

ERIC Educational Resources Information Center

Dixon, Peggy; And Others

This study guide is part of a program of studies entitled Science and Engineering Technician (SET) Curriculum. The SET Curriculum integrates elements from the disciplines of chemistry, physics, mathematics, mechanical technology, and electronic technology. The objective of this curriculum development project is to train technicians in the use of…

Curriculum Design for Inquiry: Preservice Elementary Teachers' Mobilization and Adaptation of Science Curriculum Materials

ERIC Educational Resources Information Center

Forbes, Cory T.; Davis, Elizabeth A.

2010-01-01

Curriculum materials are crucial tools with which teachers engage students in science as inquiry. In order to use curriculum materials effectively, however, teachers must develop a robust capacity for pedagogical design, or the ability to mobilize a variety of personal and curricular resources to promote student learning. The purpose of this study…

Teacher change and professional development: A case study of teachers engaged in an innovative constructivist science curriculum

NASA Astrophysics Data System (ADS)

Akura, Okong'o. Gabriel

This study examined both the changes that elementary school teachers experienced when they implemented a reform-based science curriculum and the impact of professional development on this transformation. The research involved a case study of three purposefully selected teachers implementing the Linking Food and the Environment (LIFE) program during the 2002--2003 school year. The LIFE program is a curriculum designed to enhance science literacy among learners from high poverty urban environments. While the study was grounded in the tradition of critical theory (Carspecken, 1996), the theoretical perspective of hermeneutic phenomenology (van Manen, 1990) guided data collection and analysis. Extensive observations of the teachers were made in order to capture and record the teacher change phenomenon. Data were recorded by means of field notes, audio and videotapes, semi-structured interviews, classroom observations, and video Stimulated Recall (SR) interviews. Emerging themes relating to teacher change, knowledge interests, constructivist pedagogy, and professional development illustrated how teachers grapple with various aspects of implementing a reform-based science curriculum. The teachers in this study were similar to those in earlier investigations, which found that sustained professional development programs involving mentoring and constant reflection enable elementary science teachers to change their instructional strategies from the technical-realist orientation towards the practical-hermeneutic and emancipatory-liberatory orientations. The study has implications for science curriculum developers and designers of professional development programs.

Impact of the Knowledge and Beliefs of Egyptian Science Teachers in Integrating a STS based Curriculum: A Sociocultural Perspective

NASA Astrophysics Data System (ADS)

Mansour, Nasser

2010-08-01

The failure of much curriculum innovation has been attributed to the neglect by innovators of teachers’ perceptions. The purpose of this study was to investigate inservice science teachers views of integrating Science, Technology and Society (STS) issues into the science curriculum and identify the factors that influence their decisions concerning integrating STS issues (or not). The study used mixed methods (questionnaire and interviews) with Egyptian science teachers who teach science courses for 12- to 14-year-old students. The findings indicate that unless curriculum developers take account of teachers’ beliefs and knowledge and the sociocultural factors that shape or influence those beliefs in designing and planning new STS curriculum materials, these materials are unlikely to be implemented according to their intended plan.

Bridging the Gap: Embedding Communication Courses in the Science Undergraduate Curriculum

ERIC Educational Resources Information Center

Jandciu, Eric; Stewart, Jaclyn J.; Stoodley, Robin; Birol, Gülnur; Han, Andrea; Fox, Joanne A.

2015-01-01

The authors describe a model for embedding science communication into the science curriculum without displacing science content. They describe the rationale, development, design, and implementation of two courses taught by science faculty addressing these criteria. They also outline the evaluation plan for these courses, which emphasize broad…

Science CAP: Curriculum Assistance Program. [Multimedia.

ERIC Educational Resources Information Center

DEMCO, Inc., Madison, WI.

Science Curriculum Assistance Program (Science CAP(TM)) is a multimedia package developed to create a model for preserving classroom science activities that can be shared and customized by teachers. This program is designed to assist teachers in preparing classroom science activities for grades five through eight, and to foster an environment of…

Community Resource Curriculum Development: Grades K-2.

ERIC Educational Resources Information Center

Bentley, Michael L.; And Others

This manual was developed by the Community Resource Curriculum Development Project (CRCDP), a cooperative project to develop multi-disciplinary, multi-ethnic, multi-cultural science/social sciences teaching units based upon the Illinois State Goals for Learning and the Chicago Public Schools outcomes for a seamless kindergarten, first, and second…

Experiencing the Implementation of New Inquiry Science Curricula

NASA Astrophysics Data System (ADS)

Ower, Peter S.

Using a phenomenological methodology, a cohort of four experienced science teachers was interviewed about their experience transitioning from traditional, teacher and fact-centered science curricula to inquiry-based curricula. Each teacher participated in two interviews that focused on their teaching backgrounds, their experience teaching the prior traditional curriculum, and their experience teaching the new inquiry-based curriculum. The findings are presented as a narrative of each teachers' experience with the new curriculum implementation. Analyzing the data revealed four key themes. 1) The teachers felt trapped by the old curriculum as it did not align with their positive views of teaching science through inquiry. 2) The teachers found a way to fit their beliefs and values into the old and new curriculum. This required changes to the curriculum. 3) The teachers attempted to make the science curriculum as meaningful as possible for their students. 4) The teachers experienced a balancing act between their beliefs and values and the various aspects of the curriculum. The revealed essence of the curriculum transition is one of freedom and reconciliation of their beliefs. The teachers experienced the implementation of the new curriculum as a way to ensure their values and beliefs of science education were embedded therein. They treated the new curriculum as a malleable structure to impart their grander ideas of science education (e.g. providing important skills for future careers, creating a sense of wonder, future problem solving) to the students. Their changes were aligned with the philosophy of the curriculum kits they were implementing. Thus, the fidelity of the curriculum's philosophy was not at risk even though the curriculum kits were not taught as written. This study showed that phenomenological methods are able to reveal the relationship between a teacher's prior experiences, values and beliefs and their current instructional philosophy in science education. An analytical diagram was developed based on this relationship and the teachers' experiences moving from a traditional to a new inquiry curricula. The diagram suggests a transition from feeling trapped in an existing curriculum that is inconsistent with teacher values to finding a fit and balance in a new curriculum that provides a better though not perfect fit. This diagram can serve as a guide for how to design future, ongoing professional development to ensure the success of an inquiry curriculum designed to replace a more traditional one and may be applicable to other teachers.

Lessons Learned from the Process of Curriculum Developers' and Assessment Developers' Collaboration on the Development of Embedded Formative Assessments

ERIC Educational Resources Information Center

Brandon, Paul R.; Young, Donald B.; Shavelson, Richard J.; Jones, Rachael; Ayala, Carlos C.; Ruiz-Primo, Maria Araceli; Yin, Yue; Tomita, Miki K.; Furtak, Erin Marie

2008-01-01

Our project to embed formative student assessments in the Foundational Approaches in Science Teaching curriculum required a close collaboration between curriculum developers at the Curriculum Research & Development Group (CRDG) and assessment developers at the Stanford Educational Assessment Laboratory (SEAL). This was a new endeavor for each…

Biomedical Engineering and Cognitive Science Secondary Science Curriculum Development: A Three Year Study

ERIC Educational Resources Information Center

Klein, Stacy S.; Sherwood, Robert D.

2005-01-01

This study reports on a multi-year effort to create and evaluate cognitive-based curricular materials for secondary school science classrooms. A team of secondary teachers, educational researchers, and academic biomedical engineers developed a series of curriculum units that are based in biomedical engineering for secondary level students in…

Developing Oral and Written Communication Skills in Undergraduate Computer Science and Information Systems Curriculum

ERIC Educational Resources Information Center

Kortsarts, Yana; Fischbach, Adam; Rufinus, Jeff; Utell, Janine M.; Yoon, Suk-Chung

2010-01-01

Developing and applying oral and written communication skills in the undergraduate computer science and computer information systems curriculum--one of the ABET accreditation requirements - is a very challenging and, at the same time, a rewarding task that provides various opportunities to enrich the undergraduate computer science and computer…

Science and Engineering Technician Curriculum Development Project. Final Report.

ERIC Educational Resources Information Center

Mowery, Donald R.; Wolf, Lawrence J.

Project SET (Science and Engineering for Technicians) developed a series of study guides designed to teach generic science and engineering skills to students interested in becoming technicians. An entire 2-year curriculum is encompassed by these guides, geared for 2-year college students. Described in this final report are the project's rationale,…

Boundary Interaction: Towards Developing a Mobile Technology-Enabled Science Curriculum to Integrate Learning in the Informal Spaces

ERIC Educational Resources Information Center

Sun, Daner; Looi, Chee-Kit

2018-01-01

This paper explores the crossover between formal learning and learning in informal spaces supported by mobile technology, and proposes design principles for educators to carry out a science curriculum, namely Boundary Activity-based Science Curriculum (BAbSC). The conceptualization of the boundary object, and the principles of boundary activity as…

Elementary School Teachers as "Targets and Agents of Change": Teachers' Learning in Interaction with Reform Science Curriculum

ERIC Educational Resources Information Center

Metz, Kathleen E.

2009-01-01

This article examines teachers' perspectives on the challenges of using a science reform curriculum, as well as their learning in interaction with the curriculum and parallel professional development program. As case studies, I selected 4 veteran teachers of 2nd or 3rd grade, with varying science backgrounds (including 2 with essentially none).…

Into the Curriculum. Art: Whistler's Mother; Reading/Language Arts: Finding My Voice; Science: Where on My Tongue? Taste; Social Studies/Science: Volcanoes; Social Studies: Pompeii.

ERIC Educational Resources Information Center

Reed-Mundell, Charlie

2001-01-01

Provides five fully developed library media activities that are designed for use with specific curriculum units in art, reading, language arts, science, and social studies. Describes library media skills, curriculum objectives, grade levels, resources, instructional roles, procedures, evaluation, and follow-up for each activity. (LRW)

Science Guide for Secondary Schools.

ERIC Educational Resources Information Center

Georgia State Dept. of Education, Atlanta. Office of Instructional Services.

This six-chapter guide is designed to help Georgia teachers adopt or adapt various options into the local school's science curriculum. Major areas addressed in the chapters are: (1) secondary school curriculum development (focusing on performance objectives, sequencing the curriculum, evaluation, and scientific literacy); (2) teaching methods…

Ocean Sciences Sequence for Grades 6-8: Climate Change Curriculum Developed Through a Collaboration Between Scientists and Educators

NASA Astrophysics Data System (ADS)

Weiss, E.; Skene, J.; Tran, L.

2011-12-01

Today's youth have been tasked with the overwhelming job of addressing the world's climate future. The students who will become the scientists, policy makers, and citizens of tomorrow must gain a robust understanding of the causes and effects of climate change, as well as possible adaptation strategies. Currently, there are few high quality curricula available to teachers that address these topics in a developmentally appropriate manner. The NOAA-funded Ocean Sciences Sequence for Grades 6-8 aims to address this gap by providing teachers with scientifically accurate climate change curriculum that hits on some of the most salient points in climate science, while simultaneously developing students' science process skills. The Ocean Sciences Sequence for Grades 6-8 is developed through a collaboration between some of the nation's leading ocean and climate scientists and the Lawrence Hall of Science's highly qualified GEMS (Great Explorations in Math & Science) curriculum development team. Scientists are active partners throughout the whole development process, from initial brainstorming of key concepts and creating the conceptual storyline for the curriculum to final review of the content and activities. As with all GEMS Sequences, the Ocean Sciences Sequence for Grades 6-8 is designed to provide significant scientific and educational depth, systematic assessments and informational readings, and incorporate new learning technologies. The goal is to focus strategically and effectively on the core concepts within ocean and climate sciences that students need to understand. This curriculum is designed in accordance with the latest research from the learning sciences, and provides numerous opportunities for students to develop inquiry skills and abilities as they learn about the practice of science through hands-on activities. The Ocean Sciences Sequence for Grades 6-8 addresses in depth a significant number of national, state, and district standards and benchmarks. It aligns with the Ocean Literacy and Climate Literacy Frameworks, as well as multiple core ideas in the new National Academy of Sciences Framework for K-12 Science Education. In brief, the curriculum comprises 33 45-minute sessions organized into three thematic units that are each driven by an exploratory question: Unit 1 (11 sessions)-How do the ocean and atmosphere interact?; Unit 2 (8 sessions)-How does carbon flow through the ocean, land, and atmosphere?; and Unit 3 (12 sessions)-What are the causes and effects of climate change? The curriculum deliberately explores the ocean and climate as global systems, and challenges students to use scientific evidence to make explanations about climate change. The Ocean Sciences Sequence for Grades 6-8 is currently being classroom tested by teachers across the United States in a wide variety of classroom settings. Evaluation is also being undertaken to determine the efficacy of the sequence in addressing the curriculum's learning goals.

Developing and Evaluating an Eighth Grade Curriculum Unit That Links Foundational Chemistry to Biological Growth: Using Student Measures to Evaluate the Promise of the Intervention

ERIC Educational Resources Information Center

Herrmann-Abell, Cari F.; Flanagan, Jean C.; Roseman, Jo Ellen

2013-01-01

Students often have trouble understanding key biology ideas, in part because they lack an understanding of foundational chemistry ideas. AAAS [American Association for the Advancement of Science] is collaborating with BSCS [Biological Sciences Curriculum Study] in the development of a curriculum unit that connects core chemistry and biology ideas…

A behavioral science/behavioral medicine core curriculum proposal for Japanese undergraduate medical education.

PubMed

Tsutsumi, Akizumi

2015-01-01

Behavioral science and behavioral medicine have not been systematically taught to Japanese undergraduate medical students. A working group under the auspices of Japanese Society of Behavioral Medicine developed an outcome-oriented curriculum of behavioral science/behavioral medicine through three processes: identifying the curriculum contents, holding a joint symposium with related societies, and defining outcomes and proposing a learning module. The behavioral science/behavioral medicine core curriculum consists of 11 units of lectures and four units of practical study. The working group plans to improve the current core curriculum by devising formative assessment methods so that students can learn and acquire attitude as well as the skills and knowledge necessary for student-centered clinical practice.

NUCLEAR SCIENCE CURRICULUM PROJECT, PROJECT I, INSTRUCTIONAL SPECIFICATIONS.

ERIC Educational Resources Information Center

CAMAREN, JAMES

ON THE PREMISE THAT A KNOWLEDGE OF NUCLEAR SCIENCE IS ESSENTIAL FOR INTELLIGENT DECISION-MAKING REGARDING ITS USES, THE NUCLEAR SCIENCE CURRICULUM PROJECT WAS DEVELOPED. ITS OBJECTIVE IS TO PROVIDE A PROGRAM THAT CAN BE EFFECTIVELY USED IN SCIENCE CLASSES TO PROVIDE AN UNDERSTANDING OF NUCLEAR SCIENCE AND ITS IMPACT ON SOCIETY. THOUGH TEACHER…

Life Science Standards and Curriculum Development for 9-12.

ERIC Educational Resources Information Center

Speece, Susan P.; Andersen, Hans O.

1996-01-01

Proposes a design for a life science curriculum following the National Research Council National Science Education Standards. The overarching theme is that science as inquiry should be recognized as a basic and controlling principle in the ultimate organization and experiences in students' science education. Six-week units include Matter, Energy,…

Author-Publisher-Educator Relationships and Curriculum Reform.

ERIC Educational Resources Information Center

McFadden, Charles P.

1992-01-01

Discusses relationships among teachers, curriculum package authors, and publishers. Describes the Atlantic Science Curriculum Project's reform efforts. Recommends that curriculum development projects include: (1) lengthy informal development; (2) combined testing of design and materials; (3) the withholding of contracts until materials are in…

Towards a More Authentic Science Curriculum: The Contribution of Out-of-School Learning

ERIC Educational Resources Information Center

Braund, Martin; Reiss, Michael

2006-01-01

In many developed countries of the world, pupil attitudes to school science decline progressively across the age range of secondary schooling while fewer students are choosing to study science at higher levels and as a career. Responses to these developments have included proposals to reform the curriculum, pedagogy, and the nature of pupil…

Education for Survival; A Social Studies and Science Curriculum Guide for Grades 1, 2, 3.

ERIC Educational Resources Information Center

Grubman, Ruth W.; And Others

This book is one of a series on Education For Survival and integrates a conservation curriculum into a social studies and science program for grades 1, 2, and 3. It was developed to help lead young people to an awareness of environmental problems which confront our society. The first chapter presents a resume of all social science curriculum units…

Into the Curriculum. Dramatics/Reading/Language Arts: Jellyfish Jiggle and More; Reading/Language Arts: Birthstone Folklore; Science: Jellyfish FAQ; Science: Minerals in Caves; Social Studies: Mapping the Oceans.

ERIC Educational Resources Information Center

School Library Media Activities Monthly, 2003

2003-01-01

Provides five fully developed library media activities that are designed for use with specific curriculum units in dramatics, reading, language arts, science, and social studies. Library media skills, curriculum objectives, grade levels, resources, instructional roles, activities and procedures, evaluation, and follow-up are describes for each…

News

NASA Astrophysics Data System (ADS)

2001-05-01

LINKS WITH PRIMARY SCIENCE SAD Physics; PHYSICS RESEARCH In a hurry...; PHYSICS COMMUNITY Scottish Stirling Meeting; PHYSICS AT CONGRESS Global warming forecasts rise in skin cancer; EVENTS 2001 SET week; E-MAIL DISCUSSIONS Learning in science; STUDENT ACTIVITY Paperclip Physics; CURRICULUM DEVELOPMENT Perspectives on Science; AWARDS Award for causing chaos; PHYSICS AT CONGRESS Physics and public heath: Do electrical power lines cause cancer? HIGHER EDUCATION First-year course development; INTERSCHOOL COLLABORATION Monitoring geomagnetic storms; CURRICULUM DEVELOPMENT UK course goes international; PHYSICS IN SCIENCE YEAR Website launched

Foundational Approaches in Science Teaching (FAST)--A Structured "Inquiry" Oriented Junior Science Curriculum

ERIC Educational Resources Information Center

Dekkers, John; Rouse, Fae

1977-01-01

Provides a detailed description of the three-year Foundational Approaches in Science Education curriculum developed at the University of Hawaii. The program utilizes a spiral approach with topics in ecology, physical science and relational study. Sample units and implementation suggestions are provided. (CP)

Teaching an Integrated Science Curriculum: Linking Teacher Knowledge and Teaching Assignments

ERIC Educational Resources Information Center

Harrell, Pamela Esprivalo

2010-01-01

A number of factors affect successful implementation of an integrated science curriculum, including various outputs and inputs related to teacher quality such as professional development experiences, adequate planning periods, and adequate content preparation of teachers with regard to content knowledge associated with the curriculum taught. This…

A comparative study on student perceptions of their learning outcomes in undergraduate science degree programmes with differing curriculum models

NASA Astrophysics Data System (ADS)

Matthews, Kelly E.; Firn, Jennifer; Schmidt, Susanne; Whelan, Karen

2017-04-01

This study investigated students' perceptions of their graduate learning outcomes including content knowledge, communication, writing, teamwork, quantitative skills, and ethical thinking in two Australian universities. One university has a traditional discipline-orientated curriculum and the other, an interdisciplinary curriculum in the entry semester of first year. The Science Students Skills Inventory asked students (n = 613) in first and final years to rate their perceptions of the importance of developing graduate learning outcomes within the programme; how much they improved their graduate learning outcomes throughout their undergraduate science programme; how much they saw learning outcomes included in the programme; and how confident they were about their learning outcomes. A framework of progressive curriculum development was adopted to interpret results. Students in the discipline-oriented degree programme reported higher perceptions of scientific content knowledge and ethical thinking while students from the interdisciplinary curriculum indicated higher perceptions of oral communication and teamwork. Implications for curriculum development include ensuring progressive development from first to third years, a need for enhanced focus on scientific ethics, and career opportunities from first year onwards.

A model marine-science curriculum for fourth-grade pupils in Florida

NASA Astrophysics Data System (ADS)

Schulte, Philip James

This dissertation focused on the development of a model marine-science curriculum for fourth-grade pupils in the State of Florida. The curriculum was developed using grounded theory research method, including a component of data collected from an on-line survey administered to 106 professional educators and marine biologists. The results of the data collection and analysis showed a definitive necessity for teacher preparedness, multidisciplinary content, and inquiry-based science instruction. Further, three important factors emerged: (a) collaborative grouping increases achievement; (b) field excursions significantly impact student motivation; (c) standardized testing influences curriculum development. The curriculum is organized as an 11-day unit, with detailed lesson plans presented in standard curricular format and with all components correlated to the Florida State Educational Standards. The curriculum incorporates teacher preparation, multimedia presentations, computer-assisted instruction, scientific art appreciation, and replication as well as assessment factors. The curriculum addresses topics of ichthyology, marine animal identification, environmental conservation and protection, marine animal anatomy, water safety, environmental stewardship, and responsible angling techniques. The components of the curriculum were discussed with reference to the literature on which it was based and recommendations for future research were addressed.

Developing and Evaluating an Eighth Grade Curriculum Unit That Links Foundational Chemistry to Biological Growth: Paper 5--Using Teacher Measures to Evaluate the Promise of the Intervention

ERIC Educational Resources Information Center

Flanagan, Jean C.; Herrmann-Abell, Cari F.; Roseman, Jo Ellen

2013-01-01

AAAS (American Association for the Advancement of Science) is collaborating with BSCS (Biological Sciences Curriculum Study) in the development of a curriculum unit for eighth grade students that connects fundamental chemistry and biology concepts to better prepare them for high school biology. Recognizing that teachers play an influential role in…

"Children's Science"

ERIC Educational Resources Information Center

Milne, Ian

2007-01-01

The revamped New Zealand curriculum emphasises "scientific literacy for all students" and provides teachers with an opportunity to promote science as an integral element of the primary school curriculum. Exploring and explaining the natural world in primary science can provide authentic contexts for the development of knowledge, skills,…

Specifying a curriculum for biopolitical critical literacy in science teacher education: exploring roles for science fiction

NASA Astrophysics Data System (ADS)

Gough, Noel

2017-12-01

In this essay I suggest some ways in which science teacher educators in Western neoliberal economies might facilitate learners' development of a critical literacy concerning the social and cultural changes signified by the concept of biopolitics. I consider how such a biopolitically inflected critical literacy might find expression in a science teacher education curriculum and suggest a number of ways of materializing such a curriculum in specific literatures, media, procedures, and assessment tasks, with particular reference to the contributions of science fiction in popular media.

The Maps in Medicine program: An evaluation of the development and implementation of life sciences curriculum

NASA Astrophysics Data System (ADS)

O'Malley, Jennifer

There has been a downward trend in both science proficiency and interest in science in the United States, especially among minority students and students of a disadvantaged background. This has led to a downturn in the number of individuals within these groups considering a career in the sciences or a related field. Studies have identified many potential causes for this problem including the current structure of science curriculum, lack of teacher preparedness, and the lack of quality education and support for those students currently underrepresented in the sciences. Among the solutions to this problem include redesigning the science curriculum, offering high-quality professional development opportunities to teachers, and creating programs to give support to individuals currently underrepresented in the sciences, so that they may have a better chance of pursuing and obtaining a science career. The Maps in Medicine program (MiM) has been designed to incorporate all of the aforementioned solutions and apply them to the current science education problem. The Maps in Medicine (MiM) program was established at the University of Missouri -- Columbia, and is funded by the Howard Hughes Medical Institute. Newly developed MiM curricula and student activities are intended to promote positive attitude changes in those students who are currently underrepresented in Science, Technology, Engineering and Mathematics (STEM) fields, with the program also providing professional development to high school science teachers. It was important to determine if the MiM program's solution to the science education problem has been successful, and so the program evaluation piece was integral. A mixed-methods approach was used to evaluate the MiM program. Formative evaluation results indicated a positive response from teachers and students regarding curriculum and professional development, and student activities. These results have also lead to the identification of appropriate improvements for the program, and will assist with the program's overall goal of national dissemination of MiM curriculum.

Language Development through Holistic Learning (Mathematics, Art, Science, Technology, and Education Resources). Project MASTER, 1988-89. OREA Report.

ERIC Educational Resources Information Center

Berney, Tomi D.; Barrera, Marbella

In its fourth year, Project MASTER served 477 Spanish-speaking students in 5 elementary schools in the Bronx. The teaching strategy was holistic, integrating all aspects of the curriculum with English-language learning through science projects. The project developed curriculum materials, stressing attitudes toward and knowledge of science topics,…

Evaluation of Factors Contributing to the Achievement of Students Participating in a Culturally Responsive Curriculum in Hawai`i Public Schools

ERIC Educational Resources Information Center

Bowditch, Scott A.

2013-01-01

This research explored the effectiveness of "Ka Hana 'Imi Na 'auao," a culturally responsive science curriculum developed for Hawaiian and other students in Hawai'i high schools. An instrument, The Culturally Responsive Science Perception (CRSP) inventory was developed to measure students' (a) perceptions of their science self-efficacy,…

Ocean Sciences Sequence for Grades 6-8: Climate Change Curriculum Developed Through a Collaboration Between Scientists and Educators

NASA Astrophysics Data System (ADS)

Halversen, C.; Weiss, E. L.; Pedemonte, S.

2016-02-01

Today's youth have been tasked with the overwhelming job of addressing the world's climate future. The students who will become the scientists, policy makers, and citizens of tomorrow must gain a robust understanding of the causes and effects of climate change, as well as possible adaptation strategies. Currently, few high quality curriculum materials exist that address climate change in a developmentally appropriate manner. The NOAA-funded Ocean Sciences Sequence for Grades 6-8: The Ocean-Atmosphere Connection and Climate Change (OSS) addresses this gap by providing teachers with scientifically accurate climate change curriculum that hits on some of the most salient points in climate science, while simultaneously developing students' science process skills. OSS was developed through a collaboration between some of the nation's leading ocean and climate scientists and the Lawrence Hall of Science's highly qualified curriculum development team. Scientists were active partners throughout the entire development process, from initial brainstorming of key concepts and creating the conceptual storyline for the curriculum to final review of the content and activities. The goal was to focus strategically and effectively on core concepts within ocean and climate sciences that students should understand. OSS was designed in accordance with the latest research from the learning sciences and provides numerous opportunities for students to develop facility with science practices by "doing" science.Through hands-on activities, technology, informational readings, and embedded assessments, OSS deeply addresses a significant number of standards from the Next Generation Science Standards and is being used by many teachers as they explore the shifts required by NGSS. It also aligns with the Ocean Literacy and Climate Literacy Frameworks. OSS comprises 33 45-minute sessions organized into three thematic units, each driven by an exploratory question: (1) How do the ocean and atmosphere interact?; (2) How does carbon flow through the ocean, land, and atmosphere?; and (3) What are the causes and effects of climate change? The curriculum deliberately explores the ocean and climate as global systems and challenges students to use scientific evidence to make explanations about climate change.

Charles Darwin and Evolution: Illustrating Human Aspects of Science

ERIC Educational Resources Information Center

Kampourakis, Kostas; McComas, William F.

2010-01-01

Recently, the nature of science (NOS) has become recognized as an important element within the K-12 science curriculum. Despite differences in the ultimate lists of recommended aspects, a consensus is emerging on what specific NOS elements should be the focus of science instruction and inform textbook writers and curriculum developers. In this…

An Exploration of the Potential Impact of the Integrated Experiential Learning Curriculum in Beijing, China

ERIC Educational Resources Information Center

Zhang, Danhui; Campbell, Todd

2012-01-01

This study examines the effectiveness of the Integrated Experiential Learning Curriculum (IELC) in China. This curriculum was developed to engage Chinese elementary students in science to cultivate a scientifically literate society by focusing science instruction on practical applications of scientific knowledge. Cornerstones of the approach…

Mentoring BUGS: An Integrated Science and Technology Curriculum

ERIC Educational Resources Information Center

Harrell, Pamela Esprivalo; Walker, Michelle; Hildreth, Bertina; Tyler-Wood, Tandra

2004-01-01

The current study describes an authentic learning experience designed to develop technology and science process skills through a carefully scaffolded curriculum using mealworms as a content focus. An individual mentor assigned to each 4th and 5th grade girl participating in the program delivered the curriculum. Results indicate mastery of science…

Engaging Young Children in Collective Curriculum Design

ERIC Educational Resources Information Center

Goulart, Maria Ines Mafra; Roth, Wolff-Michael

2010-01-01

In this study we investigate how 5-year-old children in Brazil and their teachers collectively design science curriculum. More specifically, we develop an agency|structure dialectic as a framework to describe this collective praxis in which science curriculum may emerge as the result of children-teacher transactions rather than as a result of…

Achieving a coherent curriculum in second grade: Science as the organizer

NASA Astrophysics Data System (ADS)

Park Rogers, Meredith A.

The purpose of this study was to examine how a team of four second grade teachers used their approach to teaching science as a means for designing and implementing a coherent curriculum. Within this study, curriculum coherency refers to making logical instructional connections that are both visible and explicit for students. A teacher using a common teaching strategy or critical thinking skills in such a way that the commonalities between subject areas are clearly demonstrated to students is one example of curriculum coherency. The research framework guiding this study was phenomenology; I used a case study method for data analysis. The primary data source was field notes gathered during 10 weeks of classroom observations. Secondary data sources included observations of team meetings, two sets of interviews with each of the four teachers, an interview with the school principal, and artifacts used and developed by the teachers. An analysis of the data led me to interpret the following findings: (1) the teachers viewed science as a tool to motivate their students to learn and believed in teaching science through an inquiry-based approach; (2) they described science inquiry as a process of thinking organized around questions, and saw their teaching role as shifting between guided and open classroom inquiry; (3) they taught all subjects using an inquiry-based approach, emphasized the process skills associated with doing scientific inquiry, and consistently used the language of the process skills throughout their instruction of all disciplines; (4) their team's collaborative approach played a significant role in achieving their vision of a coherent curriculum; the successfulness of their collaboration relied on the unique contributions of each member and her commitment to professional development. This study demonstrates how an inquiry-based science curriculum can provide educators with an effective model for designing and implementing a coherent curriculum. Furthermore, the findings have implications for elementary preservice and inservice programs with respect to using science teaching as a foundation for developing curriculum coherency.

Solar cell and photonics outreach for middle school students and teachers

NASA Astrophysics Data System (ADS)

Gilchrist, Pamela O.; Alexander, Alonzo B.

2017-08-01

This paper will describe the curriculum development process employed to develop a solar cell and photonics curriculum unit for students underrepresented in science, technology, engineering and mathematics fields. Information will explain how the curriculum unit was piloted with middle and high school teachers from public schools in North Carolina, high school students from underrepresented groups in an informal science program, and workshop settings. Measures used to develop the curriculum materials for middle school students will be presented along with program findings documenting students' urban versus rural interest in STEM, career aspirations, and 21st century learning skills in informal learning settings.

Pre-College Science Curriculum Activities of the National Science Foundation. Report of Science Curriculum Review Team, Volume II-Appendix.

ERIC Educational Resources Information Center

National Science Foundation, Washington, DC.

Presented is a detailed study of National Science Foundation (NSF) programs in pre-college science education. The development of policies and operational procedures are traced over the past quarter century and their impact on management practice analyzed. The report is presented in two parts: Volume 1, the findings and recommendations, and Volume…

Developing the Learning Physical Science Curriculum: Adapting a Small Enrollment, Laboratory and Discussion Based Physical Science Course for Large Enrollments

ERIC Educational Resources Information Center

Goldberg, Fred; Price, Edward; Robinson, Stephen; Boyd-Harlow, Danielle; McKean, Michael

2012-01-01

We report on the adaptation of the small enrollment, lab and discussion based physical science course, "Physical Science and Everyday Thinking" (PSET), for a large-enrollment, lecture-style setting. Like PSET, the new "Learning Physical Science" (LEPS) curriculum was designed around specific principles based on research on learning to meet the…

Integrating Engineering into Delaware's K-5 Classrooms: A Study of Pedagogical and Curricular Resources

NASA Astrophysics Data System (ADS)

Grusenmeyer, Linda Huey

This study examines the personal and curricular resources available to Delaware's elementary teachers during a time of innovative curriculum change, i.e., their knowledge, goals and beliefs regarding elementary engineering curriculum and the pedagogical support to teach two Science and Engineering Practices provided by science teaching materials. Delaware was at the forefront of K-12 STEM movement, first to adopt statewide elementary curriculum materials to complement existing science units, and one of the first to adopt the new science standards--Next Generation Science Standards. What supports were available to teachers as they adapted and adopted this new curriculum? To investigate this question, I examined (1) teachers' beliefs about engineering and the engineering curriculum, and (2) the pedagogical supports available to teachers in selected science and engineering curriculum. Teachers' knowledge, goals, and beliefs regarding Delaware's adoption of new elementary engineering curriculum were surveyed using an adapted version of the Design, Engineering, and Technology Survey (Hong, Purser, & Gardella, 2011; Yaser, Baker, Carpius, Krauss, & Roberts, 2006). Also, three open ended questions sought to reveal deeper understanding of teacher knowledge and understanding of engineering; their concerns about personal and systemic resources related to the new curriculum, its logistics, and feasibility; and their beliefs about the potential positive impact presented by the engineering education initiative. Teacher concerns were analyzed using the Concerns-Based Adoption Model (Hall & Hord, 2010). Lay understandings of engineering were analyzed by contrasting naive representations of engineering with three key characteristics of engineering adapted from an earlier study (Capobianco Diefes-Dux, Mena, & Weller, 2011). Survey findings for teachers who had attended training and those who have not yet attended professional development in the new curriculum were compared with few notable differences. Almost all elementary teacher respondents were familiar with engineering and able to define it using one or more key characteristics. They valued the inclusion of engineering in the elementary curriculum; however trained and untrained teachers reported they were not confident about teaching it and were unaware of the new standards related to engineering. Teachers saw potential advantages or benefits of the new curriculum as helping improve science and math understanding, an opportunity to increase vocational awareness, and engaging students and motivating them to learn. Most teachers saw similar barriers to implementation- lack of teacher knowledge, lack of time to learn about engineering and how to teach engineering, and lack of administrative support. Almost all were open to additional in-service training to learn more about this new curriculum. Three fifth grade science units were examined for evidence of teacher pedagogical support in teaching two Science and Engineering Practices (SEP) advocated by the Next Generation Science Standards. An analytic framework was developed based upon two NGSS SEPs: Asking questions, defining problems and Engaging in argument from evidence. Findings revealed that the kits varied greatly in their pedagogical approaches to the two SEPs and differences might be explained by each kit's underlying orientations to the teaching-learning process. Findings from these investigations have implications for the design of professional development and for engineering curricula. They highlight the importance of considering teacher beliefs about curriculum implementation and subject matter, as well as the importance of creating curriculum materials that focus teacher attention toward student thinking and the language rich science and engineering practices. Recommendations also include ongoing professional development to allow teachers time to try out and revise pedagogical routines that support the SEPs studied here.

Into the Curriculum. Music/Art/Reading/Language Arts: Can You Guess the Animal? [and] Science: The Ocean [and] Science: Biome and Animal Unit [and] Social Studies: How Many Forms of Transportation Can You Find?

ERIC Educational Resources Information Center

Ritz-Salminen, Dianne; Ely, Patricia; Asire, Marty

2000-01-01

Presents four fully developed library media activities that are designed for use with specific curriculum units in music and art, reading and language arts, science, and social studies. Each activity identifies library media skills objectives, curriculum objectives, grade levels, resources, librarian and teacher instructional roles, procedures,…

Seeking the Trace of Argumentation in Turkish Science Curriculum

ERIC Educational Resources Information Center

Cetin, Pinar Seda; Metin, Duygu; Capkinoglu, Esra; Leblebicioglu, Gulsen

2016-01-01

Providing students with inquiry-oriented learning environments is a major concern in science education. Argumentation discourse can enhance the effectiveness of inquiry-oriented learning environments. This study seeks the trace of argumentation in Turkish Elementary and Secondary Science Curriculum developed by the Turkish Ministry of Education…

An overview of conceptual understanding in science education curriculum in Indonesia

NASA Astrophysics Data System (ADS)

Widiyatmoko, A.; Shimizu, K.

2018-03-01

The purpose of this article is to discuss the term of “conceptual understanding” in science education curriculum in Indonesia. The implementation of 2013 Curriculum focuses on the acquisition of contextual knowledge in respective areas and environments. The curriculum seeks to develop students' evaluation skills in three areas: attitude, technical skills, and scientific knowledge. It is based on two layers of competencies: core and basic competencies. The core competencies in the curriculum 2013 represent the ability level to achieve the gradute competency standards of a students at each grade level. There are four mandatory core competencies for all educational levels and all subjects including science, which are spiritual, social, knowledge and skills competencies. In terms of knowledge competencies, conceptual understanding is an inseparable part of science concept since conceptual understanding is one of the basic competencies in science learning. This competency is a part of science graduation standard indicated in MoEC article number 20 in 2016. Therefore, conceptual understanding is needed by students for learning science successfully.

Science Education Curriculum Development Principles in Taiwan: Connecting with Aboriginal Learning and Culture

ERIC Educational Resources Information Center

Huang, Tzu-Hua; Liu, Yuan-Chen

2017-01-01

This paper reflects thorough consideration of cultural perspectives in the establishment of science curriculum development principles in Taiwan. The authority explicitly states that education measures and activities of aboriginal peoples' ethnic group should be implemented consistently to incorporate their history, language, art, living customs,…

Debating science policy in the physics classroom.

NASA Astrophysics Data System (ADS)

Mayer, Shannon

2010-03-01

It is critically important that national and international science policy be scientifically grounded. To this end, the next generation of scientists and engineers will need to be technically competent, effective communicators of science, and engaged advisors in the debate and formulation of science policy. We describe three science policy debates developed for the physics classroom aimed at encouraging students to draw connections between their developing technical expertise and important science policy issues. The first debate considers the proposal for a 450-megawatt wind farm on public lands in Nantucket Sound and fits naturally into the curriculum related to alternative forms of energy production. The second debate considers national fuel-economy standards for sport-utility vehicles and can be incorporated into the curriculum related to heat engines. The third debate, suitable for the curriculum in optics, considers solid state lighting and implications of recent United States legislation that places stringent new energy-efficiency and reliability requirements on conventional lighting. The technical foundation for each of these debates fits naturally into the undergraduate physics curriculum and the material is suitable for a wide range of physics courses, including general science courses for non-majors.

The Proof of the Pudding?: A Case Study of an "At-Risk" Design-Based Inquiry Science Curriculum

ERIC Educational Resources Information Center

Chue, Shien; Lee, Yew-Jin

2013-01-01

When students collaboratively design and build artifacts that require relevant understanding and application of science, many aspects of scientific literacy are developed. Design-based inquiry (DBI) is one such pedagogy that can serve these desired goals of science education well. Focusing on a Projectile Science curriculum previously found to be…

Carroll County hands-on elementary science

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

Herlocker, H.G.; Dunkleberger, G.L.

1994-12-31

Carroll County Hands-on Elementary Science is a nationally recognized Elementary Science Curriculum which has been disseminated in forty states, Puerto Rico, The Virgin Islands, Saipan, and Samoa. The curriculum is a non-textbook, process-based, constructivist approach to teaching science. Unique features of this curriculum include its teacher-written daily lesson plan format, its complete kit of science supplies, and its complete set of Spanish materials. In order to be included by the National Diffusion Network, Hands-on Elementary Science collected data to support the following claims: the program enhances teacher and student attitudes toward science; the program changes both the amount and themore » type of science instruction; the program is adaptable and transportable; the teacher training component is effective. The poster display will feature sample activities, data which demonstrates the effectiveness of the staff development plan, and samples which show the degree to which the program supports selected state curriculum frameworks.« less

Teacher talk about science: An examination of the constructed understanding of science held by four elementary school teachers

NASA Astrophysics Data System (ADS)

Price, Robert John

The elementary school teacher's personal understanding of science has not been a primary focus of consideration in educational reform discussions. This study examines how four elementary school teachers have constructed their personal understanding of science. The purpose of this study is to explore core understandings about science held by these teachers, and to examine the origins of these ideas. This study assumes that a teacher's understanding of science is unique and constructed on personal experiences affected by influences. This study further explores the relationship of the teachers understanding to the school's stated curriculum. The theoretical framework of this research recognizes three guiding assumptions: science exists as a set of ideas that have developed over time through competing discourses; the teacher plays an important role in the implementation of the science curriculum; and the guiding influences of a teacher's understanding of science are associated with power that emerges from discourse. The methodology in this qualitative study is closely associated with narrative inquiry. Data collection methods include a questionnaire, focus group sessions, and individual interviews. Teachers' stories were collected through collaborative interview opportunities between the researcher and the participants. The findings are presented through the narratives of the four teachers, and are organized through the guiding influences, and talk related to the stated science curriculum. The teachers' talk can be categorized by three broad guiding influences: family, education, and an image of science. The talk related to the stated curriculum illustrates both conflicts, and a relationship between the teachers' understanding of science and the curriculum. The finding of this study provides evidence that each teacher's understanding of science is unique and developed over time. Additionally, this understanding plays a role in how the stated curriculum is discussed and understood. This investigation recommends that teachers' personal understanding of science, as revealed through narrative inquiry, becomes a focus in developing new educational opportunities for elementary school teachers. This study further recommends challenging a hegemony related to positivism that exists in science curricula, and the addition of the valued voice of elementary teachers to the discourse of science education.

Policy Networks and Boundary Objects: Enacting Curriculum Reform in the Absence of Consensus

ERIC Educational Resources Information Center

Banner, Indira; Donnelly, Jim; Ryder, Jim

2012-01-01

This article uses the concept of "boundary object", first developed within science studies by Star and Griesemer, to analyse curriculum policy implementation. It employs as a vehicle a significant but contested reform of the science curriculum in schools in England from 2006 onwards, drawing empirically on an extended study of the…

Wind energy curriculum development at GWU

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

Hsu, Stephen M

A wind energy curriculum has been developed at the George Washington University, School of Engineering and Applied Science. Surveys of student interest and potential employers expectations were conducted. Wind industry desires a combination of mechanical engineering training with electrical engineering training. The curriculum topics and syllabus were tested in several graduate/undergraduate elective courses. The developed curriculum was then submitted for consideration.

How to Use Historical Approach to Teach Nature of Science in Chemistry Education?

ERIC Educational Resources Information Center

Tolvanen, Simo; Jansson, Jan; Vesterinen, Veli-Matti; Aksela, Maija

2014-01-01

Successful implementation of historical approach to teach nature of science (NOS) requires suitable curriculum material. Several research and development projects have produced lesson plans for science teachers. 25 lesson plans from four different projects involved in creating curriculum material utilizing historical approach in chemistry…

Parallel Curriculum Units for Science, Grades 6-12

ERIC Educational Resources Information Center

Leppien, Jann H.; Purcell, Jeanne H.

2011-01-01

Based on the best-selling book "The Parallel Curriculum", this professional development resource gives multifaceted examples of rigorous learning opportunities for science students in Grades 6-12. The four sample units revolve around genetics, the convergence of science and society, the integration of language arts and biology, and the periodic…

Working Alongside Scientists. Impacts on Primary Teacher Beliefs and Knowledge About Science and Science Education

NASA Astrophysics Data System (ADS)

Anderson, Dayle; Moeed, Azra

2017-05-01

Current curriculum demands require primary teachers to teach about the Nature of Science; yet, few primary teachers have had opportunity to learn about science as a discipline. Prior schooling and vicarious experiences of science may shape their beliefs about science and, as a result, their science teaching. This qualitative study describes the impact on teacher beliefs about science and science education of a programme where 26 New Zealand primary (elementary) teachers worked fulltime for 6 months alongside scientists, experiencing the nature of work in scientific research institutes. During the 6 months, teachers were supported, through a series of targeted professional development days, to make connections between their experiences working with scientists, the curriculum and the classroom. Data for the study consisted of mid- and end-of-programme written teacher reports and open-ended questionnaires collected at three points, prior to and following 6 months with the science host and after 6 to 12 months back in school. A shift in many teachers' beliefs was observed after the 6 months of working with scientists in combination with curriculum development days; for many, these changes were sustained 6 to 12 months after returning to school. Beliefs about the aims of science education became more closely aligned with the New Zealand curriculum and its goal of developing science for citizenship. Responses show greater appreciation of the value of scientific ways of thinking, deeper understanding about the nature of scientists' work and the ways in which science and society influence each other.

School and University Partnerships: The Role of Teacher Education Institutions and Primary Schools in the Development of Preservice Teachers' Science Teaching Efficacy

ERIC Educational Resources Information Center

Petersen, Jacinta E.; Treagust, David F.

2014-01-01

Science in the Australian primary school context is in a state of renewal with the recent implementation of the Australian Curriculum: Science. Despite this curriculum renewal, the results of primary students in science have remained static. Science in Australia has been identified as one of the least taught subjects in the primary school…

The Delphi Technique in Identifying Learning Objectives for the Development of Science, Technology and Society Modules for Palestinian Ninth Grade Science Curriculum

ERIC Educational Resources Information Center

Abualrob, Marwan M. A.; Daniel, Esther Gnanamalar Sarojini

2013-01-01

This article outlines how learning objectives based upon science, technology and society (STS) elements for Palestinian ninth grade science textbooks were identified, which was part of a bigger study to establish an STS foundation in the ninth grade science curriculum in Palestine. First, an initial list of STS elements was determined. Second,…

Translating Current Science into Materials for High School via a Scientist-Teacher Partnership

NASA Astrophysics Data System (ADS)

Brown, Julie C.; Bokor, Julie R.; Crippen, Kent J.; Koroly, Mary Jo

2014-04-01

Scientist-teacher partnerships are a unique form of professional development that can assist teachers in translating current science into classroom instruction by involving them in meaningful collaborations with university researchers. However, few reported models aim to directly alter science teachers' practices by supporting them in the development of curriculum materials. This article reports on a multiple case study of seven high school science teachers who attended an ongoing scientist-teacher partnership professional development program at a major Southeastern research university. Our interest was to understand the capacity of this professional development program for supporting teachers in the transfer of personal learning experiences with advanced science content and skills into curriculum materials for high school students. Findings indicate that, regardless of their ultimate success constructing curriculum materials, all cases considered the research grounded professional development supports beneficial to their professional growth with the exception of collective participation. Additionally, the cases also described how supports such as professional recognition and transferability served as affordances to the process of constructing these materials. However, teachers identified multiple constraints, including personal learning barriers, their classroom context, and the cost associated with implementing some of their curriculum ideas. Results have direct implications for future research and the purposeful design of professional development experiences through scientist-teacher partnerships.

Developing Sport Psychology in a Girls' Sport Academy Curriculum

ERIC Educational Resources Information Center

Lewis, Andrew

2014-01-01

This article explores the initial steps in developing and presenting Sport Psychology in a leadership and sport curriculum at Stellenbosch University's (SU) Centre for Human Performance Sciences' (CHPS) Academy for Girls' Leadership and Sport Development. Sport Psychology does not feature within the South African school curriculum specifically,…

The NASA HRMS educational outreach program - Searching for extraterrestrial intelligence while developing extraintelligent terrestrials

NASA Technical Reports Server (NTRS)

Coulter, Gary R.; O'Sullivan, Kathleen; Milne, David; Stoneburner, Cara

1993-01-01

Students, young and old, find extraterrestrial life one of the most intriguing of all science topics. A curriculum development project co-funded by the National Science Foundation and NASA, and administered by the SETI Institute, is underway to develop and test third through ninth grade science lessons that draw upon this fascination to focus student interest on science and mathematics. Individual lessons are designed by teachers and curriculum developers, tested in classrooms, revised and re-tested prior to distribution. A series of guides, each containing 10 to 15 lessons, will be finished by late summer 1994.

Approaches for Improving Earth System Science Education in Middle Schools and High Schools in the United States (Invited)

NASA Astrophysics Data System (ADS)

Adams, P. E.

2009-12-01

Earth system science is an often neglected subject in the US science curriculum. The state of Kansas State Department of Education, for example, has provided teachers with a curriculum guide for incorporating earth system science as an ancillary topic within the subjects of physics, chemistry, and the biological sciences. While this does provide a means to have earth system science within the curriculum, it relegates earth system science topics to a secondary status. In practice, earth system science topics are considered optional or only taught if there is time within an already an overly crowded curriculum. Given the importance of developing an educated citizenry that is capable of understanding, coping, and deciding how to live in a world where climate change is a reality requires a deeper understanding of earth system science. The de-emphasis of earth system science in favor of other science disciplines makes it imperative to seek opportunities to provide teachers, whose primary subject is not earth system science, with professional development opportunities to develop content knowledge understanding of earth system science, and pedagogical content knowledge (i.e. effective strategies for teaching earth system science). This is a noble goal, but there is no single method. At Fort Hays State University we have developed multiple strategies from face-to-face workshops, on-line coursework, and academic year virtual and face-to-face consultations with in-service and pre-service teachers. A review of the techniques and measures of effectiveness (based on teacher and student performance), and strengths and limitations of each method will be presented as an aid to other institutions and programs seeking to improve the teaching and learning of earth system science in their region.

Science. A Guide to Curriculum Development.

ERIC Educational Resources Information Center

Connecticut State Dept. of Education, Hartford.

The purpose of this guide is to aid K-12 curriculum planners in the development and implementation of well-defined programs of study in science suitable for their local school districts. Among the national trends reflected in this guide are the interdisciplinary approach; the use of performance-based student assessments; the utilization of diverse…

Using Copy Change with Trade Books to Teach Earth Science

ERIC Educational Resources Information Center

Bintz, William P.; Wright, Pam; Sheffer, Julie

2010-01-01

Developing and implementing relevant, challenging, integrative, and exploratory curriculum is critical at all levels of schooling. This article describes one attempt to develop and implement an instance of interdisciplinary curriculum by using copy change with trade books to teach earth science. Specifically, it introduces trade books as a way to…

The Pedagogical Challenges of Teaching High School Bioethics: Insights from the Exploring Bioethics Curriculum.

PubMed

Solomon, Mildred Z; Vannier, David; Chowning, Jeanne Ting; Miller, Jacqueline S; Paget, Katherine F

2016-01-01

A belief that high school students have the cognitive ability to analyze and assess moral choices and should be encouraged to do so but have rarely been helped to do so was the motivation for developing Exploring Bioethics, a six-module curriculum and teacher guide for grades nine through twelve on ethical issues in the life sciences. A multidisciplinary team of bioethicists, science educators, curriculum designers, scientists, and high school biology teachers worked together on the curriculum under a contract between the National Institutes of Health and Education Development Center, a nonprofit research and development organization with a long history of innovation in science education. At the NIH, the Department of Bioethics within the Clinical Center and the Office of Science Education within the Office of the Director guided the project.Our overarching goal for Exploring Bioethics was to introduce students to bioethics as a field of inquiry and to enable them to develop ethical reasoning skills so they could move beyond "gut reactions" to more nuanced positions. © 2016 The Hastings Center.

Developing a Culturally Sensitive Curriculum: Teaching Native American Children about Psychological and Behavioral Health

ERIC Educational Resources Information Center

Warzak, William J.; Dogan, Rebecca K.; Godfrey, Maurice

2011-01-01

The SEPA (Science Education Partnership Award) is a NIH (National Institutes of Health) program to provide science education to children K-12. In 2009, the NIH provided a supplement to develop a curriculum to inform students about factors that affect the mental health of native Americans. The goal of the current project was to develop a behavioral…

Software Assurance Curriculum Project Volume 2: Undergraduate Course Outlines

DTIC Science & Technology

2010-08-01

Contents Acknowledgments iii Abstract v 1 An Undergraduate Curriculum Focus on Software Assurance 1 2 Computer Science I 7 3 Computer Science II...confidence that can be integrated into traditional software development and acquisition process models . Thus, in addition to a technology focus...testing throughout the software development life cycle ( SDLC ) AP Security and complexity—system development challenges: security failures

Revision of Primary I-III Science Curriculum in Somalia. African Studies in Curriculum Development & Evaluation No. 83.

ERIC Educational Resources Information Center

Abdi, Ahmed Ali

This study was designed to evaluate: (1) the content of the primary I-III science curriculum in Somalia; (2) the instructional materials that back up the content and methodologies; and (3) the professional competence of the teachers in charge of teaching this subject. Data were collected by means of a questionnaire, observations, and unstructured…

Special Project Examination in Integrated Science - Ordinary Level.

ERIC Educational Resources Information Center

Wimpenny, David

A science achievement test for the General Certificate of Education (GCE, England) was developed for students enrolled in the curriculum of the Schools Council Integrated Science Project. This document contains discussions of the testing program and a copy of the 1973 test. After an overview of the curriculum project and issues related to…

What Middle Grade Students Say about Learning Science with Multimedia

ERIC Educational Resources Information Center

Goldenberg, Lauren B.; Heinze, Juliette; Ba, Harouna

2004-01-01

The JASON Multimedia Science Curriculum (JMSC) was developed in 1989 by the JASON Foundation for Education (www.jason.org), and is a multimedia, interdisciplinary, inquiry-based science curriculum that responds to the dual demands of teachers having to teach state standards while engaging students in scientific inquiry. The JMSC encourages…

The Influence of Undergraduate Science Curriculum Reform on Students' Perceptions of Their Quantitative Skills

ERIC Educational Resources Information Center

Matthews, Kelly E.; Adams, Peter; Goos, Merrilyn

2015-01-01

In this study, the Science Student Skills Inventory was used to gain understanding of student perceptions about their quantitative skills and compare perceptions of cohorts graduating before and after the implementation of a new science curriculum intent on developing quantitative skills. The study involved 600 responses from final-year…

Material Objects. Basic Edition. Science for Micronesia.

ERIC Educational Resources Information Center

Trust Territory of the Pacific Islands Dept. of Education, Saipan.

Presented is a teacher's guide for an elementary science unit designed for use with first grade students in the Trust Territory of Micronesia. Although there is a degree of similarity to the curriculum materials developed for the Science Curriculum Improvement Study, this Micronesian unit does not purport to be an adaptation or edition of the SCIS…

Environments. Basic Edition. Science for Micronesia.

ERIC Educational Resources Information Center

Trust Territory of the Pacific Islands Dept. of Education, Saipan.

Presented is a teacher's guide to an elementary science unit designed for use with fourth grade, or higher, students in the Trust Territory of Micronesia. Although there is a degree of similarity to curriculum materials developed for the Science Curriculum Improvement Study, this Micronesian unit does not purport to be an adaption or edition of…

Systems and Variables. Basic Edition. Science for Micronesia.

ERIC Educational Resources Information Center

Trust Territory of the Pacific Islands Dept. of Education, Saipan.

This teacher's guide is for an elementary school science unit designed for use with third grade (or older) children in the schools of the Trust Territory of Micronesia. Although there is a degree of similarity to curriculum materials developed for the Science Curriculum Improvement Study, this Micronesian unit does not purport to be an adaptation…

Populations. Basic Edition. Science for Micronesia.

ERIC Educational Resources Information Center

Trust Territory of the Pacific Islands Dept. of Education, Saipan.

This teacher's guide is for an elementary school science unit designed for use with third grade (or older) children in the Trust Territory of Micronesia. Although there is a degree of similarity to curriculum materials developed for the Science Curriculum Improvement Study, this Micronesian unit does not purport to be an adaptation or edition of…

Into the Curriculum. Reading/Language Arts: Three Little Kittens and the Lost Mittens; Reading/Language Arts: A Caldecott Archaeological Dig; Science: Discovering the Periodic Table of Elements; Science: The Red-Eyed Tree Frog Jumps into Nonfiction; Social Studies: Our Nation's Beginnings-Jamestown and Plymouth Settlements.

ERIC Educational Resources Information Center

Cherry, Carolyn; Louk, Cathy; Barwick, Martha; Kidd, Gentry E.

2001-01-01

Provides five fully developed school library media activities that are designed for use with specific curriculum units in reading/language arts, science, and social studies. Library media skills objectives, curriculum (subject area) objectives, grade levels, resources, instructional roles, activity and procedures for completion, evaluation, and…

Some Thoughts About Curriculum Development.

ERIC Educational Resources Information Center

Mayor, John

Based on experiences gained through involvement with three curriculum development projects, one relating to an elementary science curriculum and the other two relating to junior high school mathematics, the following recommendations are presented: (1) financial support from an outside agency, public or private, makes boldness more probable in…

Ecosystems, Teacher's Guide.

ERIC Educational Resources Information Center

California Univ., Berkeley. Science Curriculum Improvement Study.

The Science Curriculum Improvement Study has developed this teacher's guide to "Ecosystems," the sixth part of a six unit life science curriculum sequence. The six basic units, emphasizing organism-environment interactions, are organisms, life cycles, populations, environments, communities, and ecosystems. They make use of scientific and…

Populations, Teacher's Guide.

ERIC Educational Resources Information Center

California Univ., Berkeley. Science Curriculum Improvement Study.

The Science Curriculum Improvement Study has developed this teacher's guide to "Populations," the third part of a six-unit life science curriculum sequence. The six basic units, emphasizing organism-environment interactions, are organisms, life cycles, populations, environments, communities, and ecosystems; and they make use of…

Communities, Teacher's Guide.

ERIC Educational Resources Information Center

California Univ., Berkeley. Science Curriculum Improvement Study.

The Science Curriculum Improvement Study has developed this teacher's guide to "Communities," the fifth part of a six unit life science curriculum sequence. The six basic units, emphasizing organism-environment interactions, are organisms, life cycles, populations, environments, communities, and ecosystems, and make use of scientific and…

The Development of an Integrated Science Core Curriculum for Allied Health Students

ERIC Educational Resources Information Center

Sesney, John; And Others

1977-01-01

The article describes the development of BioMedical Sciences Core at Weber State College in Ogden, Utah for introductory level allied health students. The design of the "Core" curriculum is to integrate the disciplines of physics, chemistry, anatomy, physiology, and microbiology as they relate to the human body rather than teaching the traditional…

The Body Game: Developed by Undergraduates for Key Stage 2 National Curriculum Science.

ERIC Educational Resources Information Center

Verran, J.; Brintnell, B.; Brownrigg, N.; Garcia, R.; Green, A.

1997-01-01

Describes a game developed for school children which addresses part of the Science National Curriculum. The board is a human body with organs on view. Questions relate to different organ systems, body parts, and processes. Topics include breathing, digestion and metabolism, blood and circulation, and the sensory organs and teeth. (AIM)

Project LITE: Light Inquiry Through Experiments

NASA Astrophysics Data System (ADS)

Brecher, Kenneth

2007-06-01

"Project LITE: Light Inquiry Through Experiments" is a science education project aimed at developing interactive hands-on and eyes-on curriculum, software and materials about light and optics. These are being developed for use in undergraduate astronomy courses, but they can also be used to advantage in physics, chemistry, Earth science and psychology courses throughout the K-12 and undergraduate curriculum.

How the "I Can Explain!" Project Helps Children Learn Science through Talk

ERIC Educational Resources Information Center

Eley, Alison

2016-01-01

The role of talk in developing understanding in science has been well documented and the recognition of this in the new National Curriculum for England is very positive. The curriculum outlines the need for quality and variety of language in order for children to develop their scientific vocabulary and to articulate scientific concepts clearly and…

Development of a flexible higher education curriculum framework for geographic information science

NASA Astrophysics Data System (ADS)

Veenendaal, B.

2014-04-01

A wide range of geographic information science (GIScience) educational programs currently exist, the oldest now over 25 years. Offerings vary from those specifically focussed on geographic information science, to those that utilise geographic information systems in various applications and disciplines. Over the past two decades, there have been a number of initiatives to design curricula for GIScience, including the NCGIA Core Curriculum, GIS&T Body of Knowledge and the Geospatial Technology Competency Model developments. The rapid developments in geospatial technology, applications and organisations means that curricula need to constantly be updated and developed to maintain currency and relevance. This paper reviews the curriculum initiatives and outlines a new and flexible GIScience higher education curriculum framework which complements and utilises existing curricula. This new framework was applied to the GIScience programs at Curtin University in Perth, Australia which has surpassed 25 years of GIScience education. Some of the results of applying this framework are outlined and discussed.

Developing a yearlong Next Generation Science Standard (NGSS) learning sequence focused on climate solutions: opportunities, challenges and reflections

NASA Astrophysics Data System (ADS)

Cordero, E.; Centeno, D.

2015-12-01

Over the last four years, the Green Ninja Project (GNP) has been developing educational media (e.g., videos, games and online lessons) to help motivate student interest and engagement around climate science and solutions. Inspired by the new emphasis in NGSS on climate change, human impact and engineering design, the GNP is developing a technology focused, integrative, and yearlong science curriculum focused around solutions to climate change. Recognizing the importance of teacher training on the successful implementation of NGSS, we have also integrated teacher professional development into our curriculum. During the presentation, we will describe the design philosophy around our middle school curriculum and share data from a series of classes that are piloting the curriculum during Fall 2015. We will also share our perspectives on how data, media creation and engineering can be used to create educational experiences that model the type of 'three-dimensional learning' encouraged by NGSS.

Teachers' Sensemaking about Implementation of an Innovative Science Curriculum Across the Settings of Professional Development and Classroom Enactment

NASA Astrophysics Data System (ADS)

de los Santos, Xeng

Designing professional development that effectively supports teachers in learning new and often challenging practices remains a dilemma for teacher educators. Within the context of current reform efforts in science education, such as the Next Generation Science Standards, teacher educators are faced with managing the dilemma of how to support a large number of teachers in learning new practices while also considering factors such as time, cost, and effectiveness. Implementation of educative, reform-aligned curricula is one way to reach many teachers at once. However, one question is whether large-scale curriculum implementation can effectively support teachers in learning and sustaining new teaching practices. To address this dilemma, this study used a comparative, multiple case study design to investigate how secondary science teachers engaged in sensemaking about implementation of an innovative science curriculum across the settings of professional development and classroom enactment. In using the concept of sensemaking from organizational theory, I focused specifically on how teachers' roles in social organizations influenced their decisions to implement the curriculum in particular ways, with differing outcomes for their own learning and students' engagement in three-dimensional learning. My research questions explored: (1) patterns in teachers' occasions of sensemaking, including critical noticing of interactions among themselves, the curriculum, and their students; (2) how teachers' social commitments to different communities influenced their sensemaking; and, (3) how sustained sensemaking over time could facilitate teacher learning of rigorous and responsive science teaching practices. In privileging teachers' experiences in the classroom using the curriculum with their students, I used data generated primarily from teacher interviews with their case study coaches about implementation over the course of one school year. Secondary sources of data included artifacts such as teacher-modified curriculum materials, classroom observation notes, and video-recordings of classroom instruction and professional development sessions. Data analysis involved descriptive coding of the interview transcripts and searching for linguistic markers related to components of an occasions of sensemaking. Findings show that teachers engaged in sensemaking about curriculum implementation in multiple and different ways that were either productive or unproductive for their learning of rigorous and responsive science teaching practices. Teachers that had productive outcomes for teacher learning were engaged in sustained sensemaking that involved critical noticing of interactions between the curriculum, themselves, and their students, with the goal of bridging the gap between what the curriculum offered and what their students could do. In contrast, teachers that had unproductive outcomes for teacher learning were engaged in sensemaking that often involved critical noticing of only one aspect and were motivated by local obligations. Four themes emerged: sustained sensemaking over time, the influence of school communities, teacher learning of content, and the influence of teachers' beliefs. Using these findings and themes, I present a model for teacher sensemaking within the context of long-term professional development around implementation of an innovative curriculum, with a mechanism for how teacher learning could occur over time. Implications for science teacher professional development and learning and directions for future research are offered.

Space science curriculum design and research at NC A&T state university

NASA Astrophysics Data System (ADS)

Kebede, Abebe; Nair, Jyoti; Smith, Galen

2007-12-01

Recently, North Carolina Agricultural and Technical State University (NCAT) won one of the largest awards from NASA to develop curriculum and research capability in space science in partnership with NASA centres, National Institute of Aerospace, the North Carolina Space Grant, the American Astronomical Society and a number of institutions affiliated with NASA. The plan is to develop curricula and research platforms that prepare science, technology, engineering and mathematics (STEM) students to be employed by NASA. The research programme initially focuses on the study of space and atmospheric physics, and the development of a general capability in atmospheric/space science.

Infusing Culturally Responsive Science Curriculum into Early Childhood Teacher Preparation

NASA Astrophysics Data System (ADS)

Yoon, Jiyoon; Martin, Leisa A.

2017-08-01

Previous research studies in early childhood teacher education have indicated that teacher candidates are not adequately prepared to demonstrate the knowledge and skills needed to teach science to all children including culturally and linguistically diverse students. To address this issue, the researchers provided 31 early childhood teacher candidates with instructions through a culturally responsive science education curriculum that integrates American and Korean science curriculum corresponding to the American and Korean standards for teacher education. The results showed a statistically significant increase in their Personal Science Teaching Efficacy (PSTE). In addition, the teacher candidates were able to create a multicultural/diverse lesson in the developing and proficiency levels based on Ambrosio's lesson matrix. This study provides teacher candidates' knowledge as well as an additional resource for developing their self-efficacy and understanding the role of multicultural/diverse lesson planning for science instruction. Also, teacher candidates could be better prepared by understanding how other countries approach science education and integrating this knowledge to enrich their own science instruction.

Perceptions of Critical Thinking, Task Value, Autonomy and Science Lab Self-Efficacy: A Longitudinal Examination of Students' CASE Experience

ERIC Educational Resources Information Center

Velez, Jonathan J.; Lambert, Misty D.; Elliott, Kristopher M.

2015-01-01

The purpose of this study was to begin examining the impact of the Curriculum for Agricultural Science Education (CASE). Under development since 2008, the curriculum is intended to integrate core academics and Science, Technology, Engineering, and Math (STEM) into agricultural education programs. This longitudinal descriptive correlational study…

Enhancing Middle School Science Lessons with Playground Activities: A Study of the Impact of Playground Physics

ERIC Educational Resources Information Center

Friedman, Lawrence B.; Margolin, Jonathan; Swanlund, Andrew; Dhillon, Sonica; Liu, Feng

2017-01-01

Playground Physics is a technology-based application and accompanying curriculum designed by New York Hall of Science (NYSCI) to support middle school students' science engagement and learning of force, energy, and motion. The program includes professional development, the Playground Physics app, and a curriculum aligned with New York State…

The Innovative Immersion of Mobile Learning into a Science Curriculum in Singapore: An Exploratory Study

ERIC Educational Resources Information Center

Sun, Daner; Looi, Chee-Kit; Wu, Longkai; Xie, Wenting

2016-01-01

With advancements made in mobile technology, increasing emphasis has been paid to how to leverage the affordances of mobile technology to improve science learning and instruction. This paper reports on a science curriculum supported by an inquiry-based framework and mobile technologies. It was developed by teachers and researchers in a multiyear…

Environmental and Science Education in Developing Nations: A Ghanaian Approach to Renewing and Revitalizing the Local Community and Ecosystems

ERIC Educational Resources Information Center

Mueller, Michael P.; Bentley, Michael L.

2009-01-01

Curriculum reform in environmental and science education now taking place in Ghana focuses on the community and ecosystems as the context of education. In Ghana, students conduct science investigations that include games, word searches, crossword puzzles, case studies, role play, debates, projects, and ecological profiles. This curriculum reflects…

Chemical Science and Technology II. A Study Guide of the Science and Engineering Technician Curriculum.

ERIC Educational Resources Information Center

Ballinger, Jack T.; Wolf, Lawrence J.

This study guide is part of a program of studies entitled the Science and Engineering Technician (SET) Curriculum developed to provide a framework for training technicians in the use of electronic instruments and their applications. This interdisciplinary course of study integrates elements from the disciplines of chemistry, physics, mathematics,…

Eighth Grade Earth Science Curriculum Guide. Part 1.

ERIC Educational Resources Information Center

New York City Board of Education, Brooklyn, NY. Div. of Curriculum and Instruction.

This is a curriculum guide composed of lessons which can serve as models for the beginning teacher as well as for the teacher who needs activities to broaden the earth science perspective in the classroom. It was designed to supplement the New york State Earth Science Syllabus and encourages students to develop inquiry and problem solving skills.…

Science through Engineering in Elementary School: Comparing Three Enactments of an Engineering-Design-Based Curriculum on the Science of Sound

ERIC Educational Resources Information Center

Wendell, Kristen Bethke

2011-01-01

This research illustrates how varying enactments of an engineering-design-based science curriculum shaped the development of students' domain-specific scientific ideas and practices. In this comparative case study rooted in the analytical perspectives of activity theory and learning environments, student and teacher participants in three…

Innovations: The Social Consequences of Science and Technology. Final Evaluation Report.

ERIC Educational Resources Information Center

Tolman, Richard R.

The Biological Sciences Curriculum Study designed, developed, and field-tested a series of nine curriculum resource units for a semester program called "Innovations: The Social Consequences of Science and Technology (IST)." The units were designed for use by students and teachers in the 11th and 12th grades and at the junior college…

Preparing Science Teachers to Address Contentious and Sensitive Science Topics

ERIC Educational Resources Information Center

Ado, Gustave

2015-01-01

Purpose: Despite high HIV prevalence rates in Ivory Coast, the formal K-12 curriculum was not developed to address HIV/AIDS information completely for many African students. The purpose of this study was to identify factors that influenced Ivorian teachers' teaching of the HIV/AIDS curriculum in middle school science curricula in nine middle…

Hydrogen Technology and Energy Curriculum (HyTEC)

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

Nagle, Barbara

The Lawrence Hall of Science of the University of California, Berkeley has collaborated with scientists and engineers, a local transit agency, school districts, and a commercial curriculum publisher to develop, field-test nationally, and publish a two-week curriculum module on hydrogen and fuel cells for high school science. Key partners in this project are the Schatz Energy Research Center (SERC) of Humboldt State University, the Alameda-Contra Costa Transit District (AC Transit), FilmSight Productions, Lab-Aids, Inc., and 32 teachers and 2,370 students in field-test classrooms in California, Connecticut, Ohio, New York, South Carolina, and Washington. Field-test teachers received two to three daysmore » of professional development before teaching the curriculum and providing feedback used for revision of the curriculum. The curriculum, titled Investigating Alternative Energy: Hydrogen and Fuel Cells and published by Lab-Aids, Inc., includes a teachers guide (with lesson plans, resources, and student handout pages), two interactive computer animations, a video, a website, and a laboratory materials kit. The project has been disseminated to over 950 teachers through awareness workshops at state, regional, and national science teacher conferences.« less

Arctic Climate Connections Curriculum: A Model for Bringing Authentic Data into the Classroom

ERIC Educational Resources Information Center

Gold, Anne U.; Kirk, Karin; Morrison, Deb; Lynds, Susan; Sullivan, Susan Buhr; Grachev, Andrey; Persson, Ola

2015-01-01

Science education can build a bridge between research carried out by scientists and relevant learning opportunities for students. The Broader Impact requirements for scientists by funding agencies facilitate this connection. We propose and test a model curriculum development process in which scientists, curriculum developers, and classroom…

Changes in Elementary Student Perceptions of Science, Scientists and Science Careers after Participating in a Curricular Module on Health and Veterinary Science

PubMed Central

Shin, Soo Yeon; Parker, Loran Carleton; Adedokun, Omolola; Mennonno, Ann; Wackerly, Amy; SanMiguel, Sandra

2015-01-01

This study examined to what extent a curriculum module that uses animal and human health scientists and science concepts to portray science and scientists in a relevant and authentic manner could enhance elementary students’ aspiration for science careers, attitudes to science, positive perceptions of scientists, and perceived relevance of science. The curriculum was developed by a research-based university program and has been put into practice in two early elementary classrooms in an urban school in the Midwest. An attitudinal rating survey and the Draw-A-Scientist Test (DAST) were used to assess pre to post changes in student attitudes toward science, perceptions of scientists, perceived relevance of science, and aspiration for science careers. Findings indicated that the implementation of this curriculum contributed positively to student attitudes toward science, decreased students’ stereotypical images of scientists, and increased student aspirations to become a scientist. PMID:26726271

Indians of Northwest California: History/Social Science and Literature Based Curriculum Units.

ERIC Educational Resources Information Center

Supahan, Sarah, Ed.

This curriculum guide was developed to provide material about the Indian culture of Northwest California for students in grades K-6. Many of the units were developed for a specific grade, but can be adapted for older or younger children. The material can be integrated with such curricular areas as language, literature, social studies, science, and…

Modular Mayhem? A Case Study of the Development of the A-Level Science Curriculum in England

ERIC Educational Resources Information Center

Hayward, Geoff; McNicholl, Jane

2007-01-01

This article investigates the costs and benefits of the increased use of modular or unitized qualification designs through a case study of the GCE A-level science curriculum in England. Following a brief review of the development of modular A-levels, the various proposed advantages of modularity--short-term goals and regular feedback, flexibility…

Development of the competency-based medical curriculum for the new Augsburg University Medical School.

PubMed

Härtl, Anja; Berberat, Pascal; Fischer, Martin R; Forst, Helmuth; Grützner, Stefanie; Händl, Thomas; Joachimski, Felix; Linné, Renate; Märkl, Bruno; Naumann, Markus; Putz, Reinhard; Schneider, Werner; Schöler, Claus; Wehler, Markus; Hoffmann, Reinhard

2017-01-01

Aim: With the resolution from April 28, 2014, the Bavarian state government in Germany decided to found a new medical school at Augsburg University, thereby requiring the development of a competency-based medical curriculum. Methods: Two interdisciplinary groups developed a spiral curriculum (following Harden) employing the model of Thumser-Dauth & Öchsner. The curriculum focuses on specifically defined competencies: medical expertise, independent scientific reasoning, argumentation and scholarship, as well as communication skills. Results: The spiral curriculum was developed as a hybrid curriculum. Its modular structure incorporates the mandatory subjects required by the German regulations for medical licensure (Approbationsordnung) into organ- and system-centered blocks which are integrated both horizontally and vertically. Basic preclinical sciences are covered in the blocks "Movement," "Balance" and "Contact." The clinical sciences are organized according to six pillars (conservative medicine, surgical medicine, men's-women's-children's medicine, the senses, the nervous system and the mind, and general medicine) which students revisit three times each over the course of the program. A longitudinal clinical course incorporates interdisciplinary education. A particular focus is on scientific education encompassing a longitudinal course in the sciences (including interdisciplinary classes with other university departments), block practicums, and two scientific projects. Conclusion: It is not only the degree of integration und intensity of the Augsburg University undergraduate medical degree program, but also its targeted advancement of academic, social and communication skills that have not yet been realized to such an extent elsewhere in Germany. On July 8, 2016, the German Council of Science and Humanities unanimously gave this concept a positive evaluation. Future research will examine and evaluate the Augsburg medical curriculum and the impact of the new medical school on the hospital and university in Augsburg.

Development of the competency-based medical curriculum for the new Augsburg University Medical School

PubMed Central

Härtl, Anja; Berberat, Pascal; Fischer, Martin R.; Forst, Helmuth; Grützner, Stefanie; Händl, Thomas; Joachimski, Felix; Linné, Renate; Märkl, Bruno; Naumann, Markus; Putz, Reinhard; Schneider, Werner; Schöler, Claus; Wehler, Markus; Hoffmann, Reinhard

2017-01-01

Aim: With the resolution from April 28, 2014, the Bavarian state government in Germany decided to found a new medical school at Augsburg University, thereby requiring the development of a competency-based medical curriculum. Methods: Two interdisciplinary groups developed a spiral curriculum (following Harden) employing the model of Thumser-Dauth & Öchsner. The curriculum focuses on specifically defined competencies: medical expertise, independent scientific reasoning, argumentation and scholarship, as well as communication skills. Results: The spiral curriculum was developed as a hybrid curriculum. Its modular structure incorporates the mandatory subjects required by the German regulations for medical licensure (Approbationsordnung) into organ- and system-centered blocks which are integrated both horizontally and vertically. Basic preclinical sciences are covered in the blocks “Movement,” “Balance” and “Contact.” The clinical sciences are organized according to six pillars (conservative medicine, surgical medicine, men’s-women’s-children’s medicine, the senses, the nervous system and the mind, and general medicine) which students revisit three times each over the course of the program. A longitudinal clinical course incorporates interdisciplinary education. A particular focus is on scientific education encompassing a longitudinal course in the sciences (including interdisciplinary classes with other university departments), block practicums, and two scientific projects. Conclusion: It is not only the degree of integration und intensity of the Augsburg University undergraduate medical degree program, but also its targeted advancement of academic, social and communication skills that have not yet been realized to such an extent elsewhere in Germany. On July 8, 2016, the German Council of Science and Humanities unanimously gave this concept a positive evaluation. Future research will examine and evaluate the Augsburg medical curriculum and the impact of the new medical school on the hospital and university in Augsburg. PMID:28584869

Into the Curriculum. Reading/Language Arts: Hans Christian Andersen [and] Science: Bat Research [and] Science: The Library Media Center Rocks! An Introduction to Rocks, Minerals, and Gemstones [and] Social Studies: Ticket to the Olympics: Exploring Sydney and the 2000 Summer Games [and] Social Studies/Music: Sounds of the Election: Presidential Campaign Songs.

ERIC Educational Resources Information Center

Germain, Claudia; Mayo, Jeanne B.; Hart, Lisa

2000-01-01

Provides five fully developed library media activities that are designed for use with specific curriculum units in reading and language arts, science, social studies, and music. Library media skills, curriculum objectives, grade levels, resources, instructional roles, procedures, evaluation, and follow-up are described for each activity. (LRW)

The Development of Teaching Aid in The Implementation of Natural Science in The Curriculum 2013 Junior School

NASA Astrophysics Data System (ADS)

Patonah, Siti; Nuvitalia, Duwi; Saptaningrum, Ernawati; Khumaedi; Rusilowati, Ani

2017-04-01

The purpose of this study was to develop the teaching aid required in the curriculum implemented 2013 science subjects at the junior level. The method used in this research is the Research and Development. In this article will be described in the description of the development of the teaching aids that have been generated. Teaching aids consist of three pieces, namely water filtration magical, electric convection box and Musschenbroek bimetal. Based on the expert validation, then all three devices have fulfilled the requirements as teaching aids. Where all three can be used to demonstrate the concept of separation of mixtures, air convection, and thermal expansion of the metal. All three are decent teaching aids used to learn science subjects at junior in implementing the curriculum in 2013.

Water in the Solar System: The Development of Science Education Curriculum Focused on Planetary Exploration

NASA Astrophysics Data System (ADS)

Edgar, L. A.; Anderson, R. B.; Gaither, T. A.; Milazzo, M. P.; Vaughan, R. G.; Rubino-Hare, L.; Clark, J.; Ryan, S.

2017-12-01

"Water in the Solar System" is an out-of-school time (OST) science education activity for middle school students that was developed as part of the Planetary Learning that Advances the Nexus of Engineering, Technology, and Science (PLANETS) project. The PLANETS project was selected in support of the NASA Science Mission Directorate's Science Education Cooperative Agreement Notice, with the goal of developing and disseminating OST curriculum and related professional development modules that integrate planetary science, technology, and engineering. "Water in the Solar System" is a science activity that addresses the abundance and availability of water in the solar system. The activity consists of three exercises based on the following guiding questions: 1) How much water is there on the Earth? 2) Where can you find water in the solar system? and 3) What properties affect whether or not water can be used by astronauts? The three exercises involve a scaling relationship demonstration about the abundance of useable water on Earth, a card game to explore where water is found in the solar system, and a hands-on exercise to investigate pH and salinity. Through these activities students learn that although there is a lot of water on Earth, most of it is not in a form that is accessible for humans to use. They also learn that most water in the solar system is actually farther from the sun, and that properties such as salinity and pH affect whether water can be used by humans. In addition to content for students, the activity includes background information for educators, and links to in-depth descriptions of the science content. "Water in the Solar System" was developed through collaboration between subject matter experts at the USGS Astrogeology Science Center, and curriculum and professional development experts in the Center for Science Teaching and Learning at Northern Arizona University. Here we describe our process of curriculum development, education objectives of "Water in the Solar System" and lessons learned.

Science in an Indigenous School: Insight into Teacher Beliefs about Science Inquiry and Their Development as Science Teachers

ERIC Educational Resources Information Center

Rofe, Craig; Moeed, Azra; Anderson, Dayle; Bartholomew, Rex

2016-01-01

School science aspires for students to develop conceptual, procedural and nature of science understandings as well as developing scientific literacy. Issues and complexities surrounding the development of science curriculum for Indigenous schools in New Zealand is a concern as little is known about these aspects of science learning in…

Science education and worldview

NASA Astrophysics Data System (ADS)

Keane, Moyra

2008-09-01

Is there a place for Indigenous Knowledge in the science curriculum for a Zulu community in rural Kwa-Zulu Natal, South Africa? This article argues "yes," based on a participative research and development project that discovered relevant science learning in a Zulu community. Among community concerns for relevant factual and performative knowledge, we found that culture and worldview are critical to community identity, to visioning educational outcomes, and to learning in school science. Cultural practices may contribute to pedagogy and curriculum; curriculum, in turn, may affirm cultural practices. Further, worldview needs to be understood as an aspect of knowledge creation. By understanding key aspects of an African worldview, science educators can contribute to both meaningful science education and community well-being. By fostering culture and worldview, a rural community can make a unique contribution to science education.

A Curriculum Guide to Applications of Science to Technology for Able Learners.

ERIC Educational Resources Information Center

VanTassel-Baska, Joyce, Ed.; And Others

This curriculum guide was developed with the intention of providing an enrichment option for gifted and talented learners who are interested in pursuing current issues and topics in the fields of mathematics and science. The scope of the guide is meant to encompass a year's study of a set of topics which apply mathematics to science and…

Towards the Reform of Science Teaching in Spain: The Social and Personal Relevance of Junior Secondary School Science Projects for a Socially Responsible Understanding of Science.

ERIC Educational Resources Information Center

Membiela, Pedro

1999-01-01

Discusses aspects of more than a decade of research and implementation of cross-curriculum themes as part of the curriculum for secondary school students in Spain. Comments on theoretical and practical issues encountered in developing similar projects. Contains 45 references. (Author/WRM)

Establishing Enabling Conditions to Develop Critical Thinking Skills: A Case of Innovative Curriculum Design in Environmental Science

ERIC Educational Resources Information Center

Belluigi, Dina Zoe; Cundill, Georgina

2017-01-01

This paper considers a curriculum design motivated by a desire to explore more valid pedagogical approaches that foster critical thinking skills among students engaged in an Environmental Science course in South Africa, focussing specifically on the topic of Citizen Science. Fifty-three under graduate students were involved in the course, which…

Moral Sensitivity in the Context of Socioscientific Issues in High School Science Students

ERIC Educational Resources Information Center

Fowler, Samantha R.; Zeidler, Dana L.; Sadler, Troy D.

2009-01-01

This study is a part of a larger study that examined using socioscientific issues (SSI) as a form of effective science teaching. The purpose was to investigate how teaching a year-long curriculum using SSI affects science learning outcomes. In this report, we examine the effects of a SSI-driven curriculum on the development of students' moral…

The Effects of Research-Based Curriculum Materials and Curriculum-Based Professional Development on High School Science Achievement: Results of a Cluster-Randomized Trial

ERIC Educational Resources Information Center

Taylor, Joseph; Kowalski, Susan; Getty, Stephen; Wilson, Christopher; Carlson, Janet

2013-01-01

Effective instructional materials can be valuable interventions to improve student interest and achievement in science (National Research Council [NRC], 2007); yet, analyses indicate that many science instructional materials and curricula are fragmented, lack coherence, and are not carefully articulated through a sequence of grade levels (AAAS,…

Interdisciplinary Science through the Parallel Curriculum Model: Lessons from the Sea

ERIC Educational Resources Information Center

Hathcock, Stephanie J.

2018-01-01

The Parallel Curriculum Model (PCM) lends itself to considering curriculum development from different angles. It begins with a solid Core Curriculum and can then be extended through the Curriculum of Connections, Practice, and Identity. This article showcases a way of thinking about the creation of a PCM unit by providing examples from an…

The inventory as a core element in the further development of the science curriculum in the Mannheim Reformed Curriculum of Medicine.

PubMed

Eckel, Julia; Schüttpelz-Brauns, Katrin; Miethke, Thomas; Rolletschek, Alexandra; Fritz, Harald M

2017-01-01

Introduction: The German Council of Science and Humanities as well as a number of medical professional associations support the strengthening of scientific competences by developing longitudinal curricula for teaching scientific competences in the undergraduate medical education. The National Competence Based Catalogue of Learning Objectives for Undergraduate Medical Education (NKLM) has also defined medical scientific skills as learning objectives in addition to the role of the scholar. The development of the Mannheim science curriculum started with a systematic inventory of the teaching of scientific competences in the Mannheim Reformed Curriculum of Medicine (MaReCuM). Methods: The inventory is based on the analysis of module profiles, teaching materials, surveys among experts, and verbatims from memory. Furthermore, science learning objectives were defined and prioritized, thus enabling the contents of the various courses to be assigned to the top three learning objectives. Results: The learning objectives systematic collection of information regarding the current state of research, critical assessment of scientific information and data sources, as well as presentation and discussion of the results of scientific studies are facilitated by various teaching courses from the first to the fifth year of undergraduate training. The review reveals a longitudinal science curriculum that has emerged implicitly. Future efforts must aim at eliminating redundancies and closing gaps; in addition, courses must be more closely aligned with each other, regarding both their contents and their timing, by means of a central coordination unit. Conclusion: The teaching of scientific thinking and working is a central component in the MaReCuM. The inventory and prioritization of science learning objectives form the basis for a structured ongoing development of the curriculum. An essential aspect here is the establishment of a central project team responsible for the planning, coordination, and review of these measures.

Systemic Reform of Astronomy Curriculum in the Montgomery County Public Schools

NASA Astrophysics Data System (ADS)

Szesze, M.; Kahl, S.; Janney, D.

2002-09-01

In the Montgomery County Public Schools (MCPS), the science curriculum is undergoing a comprehensive systemic review in an effort to revise the system's curriculum and the entire instructional program. As a part of this overall effort, MCPS has developed a framework for the astronomy curriculum that includes a rationale, essential indicators, and blueprints. The school system is partnering with the NASA Goddard Space Flight Center to involve professional astronomers/space scientists as content advisors to ensure science content accuracy and currency. Through this partnership, many NASA developed educational materials have been made available to the school system to assist with the instructional sequences. This new policy has resulted in the development of a clear and coherent astronomy curriculum for grades K-8. The blueprint is written in the form of a set of indicators which identify the exact skills and knowledge that need to be taught at each grade level so that students will meet and exceed state, national, and international standards. Each blueprint also includes the enduring understandings and essential questions that students should focus on for that specific unit of study, a proposed instructional sequence, and assessment and differentiation ideas. Using these blueprints, teachers will create curriculum guides that include model lessons, model assignments, concept maps, resources, assessment samples, and strategies for differentiating the curriculum to meet the needs of a wide range of learners. In addition, a 45 hour certification training course is being developed to train in service teachers in a wide range of space science disciplines from seasons to cosmology. The course is being developed and will be taught by a team composed of space scientists and master educational trainers. Pilot testing of the curriculum and the training course will begin in Fall 2002.

Exploring Teacher Design Team Endeavors While Creating an Elementary-Focused STEM-Integrated Curriculum

ERIC Educational Resources Information Center

McFadden, Justin R.; Roehrig, Gillian H.

2017-01-01

Background: This study presents two teacher design teams (TDTs) during a professional development experience centered on science, technology, engineering, and mathematics (STEM)-integrated curriculum development. The main activity of the study, curriculum design, was framed as a design problem in order to better understand how teachers engaged…

A Combined Research/Educational Curriculum in Smart Sensors and Integrated Devices.

ERIC Educational Resources Information Center

Auner, G. W.; Siy, P.; Naik, R.; Wenger, L.; Liu, G-Y.; Schwiebert, L. J.

The researchers are developing a new curriculum which integrates ongoing research efforts in the Center for Smart Sensors and Integrated Devices into a cooperative educational and traineeship program. A forerunner to this program was initiated with funding by a National Science Foundation (NSF) Combined Research and Curriculum Development (CRCD)…

Integrating Vygotsky's theory of relational ontology into early childhood science education

NASA Astrophysics Data System (ADS)

Kirch, Susan A.

2014-03-01

In Science Education during Early Childhood: A Cultural- Historical Perspective, Wolff-Michael Roth, Maria Inês Mafra Goulart and Katerina Plakitsi explore the practical application of Vygotsky's relational ontological theory of human development to early childhood science teaching and teacher development. In this review, I interrogate how Roth et al. conceptualize "emergent curriculum" within the Eurocentric cultural-historical traditions of early childhood education that evolved primarily from the works of Vygotsky and Piaget and compare it to the conceptualizations from other prominent early childhood researchers and curriculum developers. I examine the implications of the authors' interpretation of emergence for early childhood science education and teacher preparation.

Engaging a middle school teacher and students in formal-informal science education: Contexts of science standards-based curriculum and an urban science center

NASA Astrophysics Data System (ADS)

Grace, Shamarion Gladys

This is a three-article five chapter doctoral dissertation. The overall purpose of this three-pronged study is to engage a middle school science teacher and students in formal-informal science education within the context of a science standards-based curriculum and Urban Science Center. The goals of the study were: (1) to characterize the conversations of formal and informal science educators as they attempted to implement a standards-based curriculum augmented with science center exhibits; (2) to study the classroom discourse between the teacher and students that foster the development of common knowledge in science and student understanding of the concept of energy before observing science center exhibits on energy; (3) to investigate whether or not a standards-driven, project-based Investigating and Questioning our World through Science and Technology (IQWST) curriculum unit on forms and transformation of energy augmented with science center exhibits had a significant effect on urban African-American seventh grade students' achievement and learning. Overall, the study consisted of a mixed-method approach. Article one consists of a case study featuring semi-structured interviews and field notes. Article two consists of documenting and interpreting teacher-students' classroom discourse. Article three consists of qualitative methods (classroom discussion, focus group interviews, student video creation) and quantitative methods (multiple choice and open-ended questions). Oral discourses in all three studies were audio-recorded and transcribed verbatim. In article one, the community of educators' conversations were critically analyzed to discern the challenges educators encountered when they attempted to connect school curriculum to energy exhibits at the Urban Science Center. The five challenges that characterize the emergence of a third space were as follows: (a) science terminology for lesson focus, (b) "dumb-down" of science exhibits, (c) exploration distracts lesson structure, (d) meaning of model/modeling, and (e) Which comes first?--science content learning or science exhibit exploration. These challenges were considered and discussed as opportunities for personal growth. The third space allowed for participant reflection and transformation in formal-informal collaboration and communication. In article two, teacher-students' classroom discourse transcripts corresponding to the workbook lessons from the IQWST Physics Unit were analyzed. Four instructional events were selected for discourse analysis: focusing on the inquiry process; understanding about kinetic energy; formulating scientific explanations; and translating energy transformation. The discourse-excerpts representing the aforementioned instructional events revealed four teacher behaviors: teacher-posed questions, teacher-explanations, teacher responses, and teacher reference to past learning. Of these teacher behaviors, teacher-posed questions dominated and these consist of fill-in-the-blank, affirmation, second-order, descriptive, and explanatory. Article three represented the results of the IQWST Unit Achievement Test (IUAT) and students' understanding of the concepts of energy and energy transformation. The IUAT indicated that students (N=37) in the experimental group taught with the science center exhibits augmented IQWST curriculum unit achieved scores (p<0.001) about the same as students in the control group (N=31) taught only with the IQWST curriculum unit. However, the experimental (Deltapost-pre = 4.78) and control (Deltapost-pre = 4.04) groups revealed significant gains (p<0.001) from pre-test scores to post-test scores. These findings confirm that underserved urban students' learning can be enhanced with an augmented standards-based curriculum unit. The students also can realize significant achievement gains when professionally developed and administration supported teachers use standards-driven science curriculum whether or not augmented with science exhibits. The three qualitative analyses of data in article three indicated that students had reasonable understandings of the forms and transformation of energy. They were also able to explain the working of science exhibits using their understandings of the energy concepts developed in class. The first study (article 1) implies that a third space allows for participant reflection and transformation in formal-informal collaboration and communication. The second study (article 1) implies the following: (a) the teacher's struggle with dialogic discourse, a communicative approach that fosters common knowledge through a social process; and (b) the need for professional development that fosters dialogic discourse. The third study (article three) implies an integrated curriculum with both formal and informal components can be successfully enacted to achieve content mastery when teachers are given professional development on how to develop students' knowledge using science exhibits, time to develop concepts with students using exhibits, and support from administration to modify the time required to cover certain topics in the curriculum with more time spent on those topics such as energy that require creative teaching methods to assist students' science learning. Overall, the study implies that the science center exhibits can provide a context to observe whether students are able to translate classroom constructed knowledge at the intersection of formal-informal instruction.

Story - Science - Solutions: A new middle school science curriculum that promotes climate-stewardship

NASA Astrophysics Data System (ADS)

Cordero, E.; Centeno Delgado, D. C.

2017-12-01

Over the last five years, Green Ninja has been developing educational media to help motivate student interest and engagement around climate science and solutions. The adoption of the Next Generation Science Standards (NGSS) offers a unique opportunity where schools are changing both what they teach in a science class and how they teach. Inspired by the new emphasis in NGSS on climate change, human impact and engineering design, Green Ninja developed a technology focused, integrative, and yearlong science curriculum (6th, 7th and 8th grade) focused broadly around solutions to environmental problems. The use of technology supports the development of skills valuable for students, while also offering real-time metrics to help measure both student learning and environmental impact of student actions. During the presentation, we will describe the design philosophy around our middle school curriculum and share data from a series of classes that have created environmental benefits that transcend the traditional classroom. The notion that formal education, if done correctly, can be leveraged as a viable climate mitigation strategy will be discussed.

"Comets, Origins, and Life:” Promoting Interdisciplinary Science in Secondary and Middle Schools in the Washington, DC and Saint Louis, MO Metro Areas

NASA Astrophysics Data System (ADS)

Bonev, Boncho; Gibb, E. L.; Brewer, G.; Novak, R.; Mandell, A. M.; Seaton, P.; Price, J.; Long, T.; Bahar, S.; Edwards, S. S.

2010-10-01

Developing a full-year program to support secondary and middle school science education is a key part of the "broader impact” component of NSF Grant AST- 0807939 (PI/Co-PI Bonev/Gibb). This program is realized at two stages: (1) a professional development course for teachers is offered during the summer; (2) during the subsequent academic year we collaborate with educators in lessons planning or curriculum development as demanded in their particular schools. We successfully offered the course “ Comets, Origins, and Life: Interdisciplinary Science in the Secondary Classroom ” (45 contact hours; 3 credits) in the summers of 2009 and 2010 at the Catholic University of America. This class demonstrates how a complex hypothesis - for the delivery of water and prebiotic organic matter to early Earth - is being tested by integrating astronomy, physics, chemistry, biology, and Earth and planetary science. Collaborations with participants from the 2009 class include curriculum development within the Earth Science program in Prince Georges county, MD and strengthening science in Washington DC public schools. Our next step is to offer our class in the Saint Louis, MO area. The main challenge in our work with educators is not to present them with "interesting information", but to fit what we offer within the very particular curriculum expectations of their school districts. These curriculum expectations often vary from district to district and sometimes from year to year. We gratefully acknowledge the support by the NSF, allowing to fully integrate our research area into education. We also gratefully acknowledge our collaborations with the Goddard Center for Astrobiology and the Howard B. Owens Science Center (both in MD) in developing our class curriculum. Educators interested in this program can contact Boncho Bonev (bonev@cua.edu; for the Washington DC and Baltimore, MD areas) and Erika Gibb (gibbe@umsl.edu; for the Saint Louis, MO area).

The influence of secondary science teachers' pedagogical content knowledge, educational beliefs and perceptions of the curriculum on implementation and science reform

NASA Astrophysics Data System (ADS)

Bonner, Portia Selene

2001-07-01

Science education reform is one of the focal points of restructuring the educational system in the United States. However, research indicates a slow change in progression towards science literacy among secondary students. One of the factors contributing to slow change is how teachers implement the curriculum in the classroom. Three constructs are believed to be influential in curriculum implementation: educational beliefs, pedagogical knowledge and perception of the curriculum. Earlier research suggests that there is a strong correlation between teachers' educational beliefs and instructional practices. These beliefs can be predictors of preferred strategies employed in the classroom. Secondly, teachers' pedagogical knowledge, that is the ability to apply theory and appropriate strategies associated with implementing and evaluating a curriculum, contributes to implementation. Thirdly, perception or how the curriculum itself is perceived also effects implementation. Each of these constructs has been examined independently, but never the interplay of the three. The purpose of this qualitative study was to examine the interplay of teachers' educational beliefs, pedagogical content knowledge and perceptions of a science curriculum with respect to how these influence curriculum implementation. This was accomplished by investigating the emerging themes that evolved from classroom observations, transcripts from interview and supplementary data. Five high school biology teachers in an urban school system were observed for ten months for correspondence of teaching strategies to the curriculum. Teachers were interviewed formally and informally about their perceptions of science teaching, learning and the curriculum. Supplementary material such as lesson plans, course syllabus and notes from classroom observations were collected and analyzed. Data were transcribed and analyzed for recurring themes using a thematic matrix. A theoretical model was developed from the emerging themes and sub-themes that attempts to explain how teachers begin with an intended curriculum but digress to the actual curriculum. The results of this study were consistent with previous research on teachers' beliefs and pedagogy but also revealed a new model to explain the interaction of the three constructs. Each instructor held individual beliefs about science, science teaching and pedagogy. However, there was some commonality with teachers' beliefs, pedagogy and perceptions that impacted the implementation of the curriculum. It is the interplay of teachers' educational beliefs, pedagogical content knowledge and perceptions of the curriculum that determines what is taught and instructional strategies used to teach a concept.

Science of Alcohol Curriculum for American Indians (SACAI): An Interdisciplinary Approach to the Study of the Science of Alcohol for Upper Elementary and Middle Level Students.

ERIC Educational Resources Information Center

American Indian Science and Engineering Society, Boulder, CO.

This curriculum provides American Indian youth with a framework for learning about the effects of alcohol on the body and the community. The curriculum stresses the development of scientific thinking skills and was designed for upper elementary and middle level students. The guide consists of four units: How Does Alcohol Circulate through the Body…

Into the Curriculum. Reading/Language Arts: Arabian Nights; Reading/Language Arts: Birds in Picture Books: Characters, Plots, and Themes; Science: Birds in Their Nests; Social Studies: Written with Quills; Social Studies: Baghdad and Iraq History.

ERIC Educational Resources Information Center

School Library Media Activities Monthly, 2003

2003-01-01

Provides five fully developed library media activities that are designed for use with specific curriculum units in reading, language arts, science, and social studies. Library media skills, curriculum objectives, grade levels, resources, instructional roles, activities and procedures, evaluation, and follow-up are described for each activity. (LRW)

Snow snakes and science agency: Empowering American Indian students through a culturally-based science, technology, engineering, and mathematics (STEM) curriculum

NASA Astrophysics Data System (ADS)

Miller, Brant Gregory

Mainstream curricula have struggled to provide American Indian students with meaningful learning experiences. This research project studied a novel approach to engaging students with science, technology, engineering, and mathematics (STEM) content through a culturally-based context. The traditional American Indian game of Snow Snakes (shushumeg in Ojibwe) presented a highly engaging context for delivering STEM content. Through the engaging context of snow snakes, the designed STEM curriculum explicitly applied mathematics (scaling and data), and science (force and motion) to an engineering prototype iteration that used available materials and tools (technology) for success. It was hypothesized that by engaging students through the carefully integrated STEM curriculum, driven by the culturally based context of snow snakes, students would exhibit an increase in science agency and achievement. The overarching research question explored for this study was: How does a culturally-based and integrated STEM curriculum impact student's science agency? Associated sub-questions were: (1) What does science agency look like for 6th grade students? (2) What key experiences are involved in the development of science agency through a culturally-based STEM curriculum context? And (3) What are the impacts on the community associated with the implementation of a culturally-based STEM curriculum? A case study research design was implemented for this research. Yin (2003) defines a case study as investigating a phenomenon (e.g. science agency) which occurs within authentic contexts (e.g. snow snakes, Adventure Learning, and Eagle Soaring School) especially when the boundaries between phenomenon and context are unclear. For this case study Eagle Soaring School acted as the bounded case with students from the 6th grade class representing the embedded units. Science agency was the theoretical framework for data analysis. Major findings were categorized as science and STEM learning, agency, and community impact. Concerning agency, students displayed science agency through: connecting snow snake experiences to outside contexts; students emerging as leaders; and students commanding a facility with science. This research lays the foundation for future inquiry into the development of science agency in students using culturally-based contexts.

Development of a Systems Science Curriculum to Engage Rural African American Teens in Understanding and Addressing Childhood Obesity Prevention

ERIC Educational Resources Information Center

Frerichs, Leah; Lich, Kristen Hassmiller; Young, Tiffany L.; Dave, Gaurav; Stith, Doris; Corbie-Smith, Giselle

2018-01-01

Engaging youth from racial and ethnic minority communities as leaders for change is a potential strategy to mobilize support for addressing childhood obesity, but there are limited curricula designed to help youth understand the complex influences on obesity. Our aim was to develop and pilot test a systems science curriculum to elicit rural…

Developing a Competency-Based Component for the Connecticut Vocational Agriculture Curriculum. Final Report.

ERIC Educational Resources Information Center

EASTCONN Regional Educational Services Center, North Windham, CT.

Competencies are identified for the four primary instructional areas of the Connecticut Vocational Agriculture Curriculum: plant science, agricultural mechanics, natural resources, and animal science. The competencies for each instructional area are divided into those for exploratory units generally appropriate for instruction at the…

Aerospace Science Education, A Curriculum Guide.

ERIC Educational Resources Information Center

Hilburn, Paul

This curriculum guide was developed by the Alaska State Department of Education for the purpose of aiding elementary and secondary school teachers in incorporating elements of aerospace science in the classroom. The section of the guide designed for elementary school teachers includes chapters under the headings: Aircraft, Airports, Weather,…

Mastering Cognitive Development Theory in Computer Science Education

ERIC Educational Resources Information Center

Gluga, Richard; Kay, Judy; Lister, Raymond; Kleitman, Simon; Kleitman, Sabina

2013-01-01

To design an effective computer science curriculum, educators require a systematic method of classifying the difficulty level of learning activities and assessment tasks. This is important for curriculum design and implementation and for communication between educators. Different educators must be able to use the method consistently, so that…

A Curriculum for Preparing Science Teachers to Use Microcomputers.

ERIC Educational Resources Information Center

Ellis, James D.; Kuerbis, Paul J.

1991-01-01

ENLIST Micros, a project designed to improve quality and quantity of microcomputer use in science teaching, is described. Rationale and procedures behind its development; description of the pilot test model; results of the initial field test and an implementation study; description of the revised ENLIST Micros curriculum; and recommendations for…

Life Sciences Teachers Negotiating Professional Development Agency in Changing Curriculum Times

ERIC Educational Resources Information Center

Singh-Pillay, Asheena; Samuel, Michael Anthony

2017-01-01

This article probes teacher responses to three curricular reform initiatives from a South African situated contextual perspective. It focuses on Life Sciences teachers who have initially reported feeling overwhelmed by this rapidly changing curriculum environment: adopting and re-adapting to the many expected shifts. The research question posed…

A Mohawk Vision of Education.

ERIC Educational Resources Information Center

Henderson, Mary

1996-01-01

Discusses the Ahkwesahsne Science and Math Project, a holistic bioregional curriculum designed to help students of the Mohawk culture in Canada. The program aimed to stress the local ecosystem and develop a curriculum based in Mohawk culture while encouraging the students to also pursue the advanced levels of math and science. (AIM)

Using Web 2.0 Technology to Enhance the Science Curriculum in Your School

ERIC Educational Resources Information Center

Hainsworth, Mark

2017-01-01

The author shares his vision of what 21st century science education might look like in the future and discusses how to develop an e-learning capability to shape the science curriculum in your school. Good teaching and learning should always be a teacher's first priority but there is little doubt in the author's mind that the implementation of an…

From Secret Garden to Crowded Marketplace: Fifty Years of ASE and the Science Curriculum

ERIC Educational Resources Information Center

Hollins, Martin

2013-01-01

This article charts some of the most notable ways in which the science curriculum has changed over the past 50 years and identifies the influence of members of the Association for Science Education (ASE) in both projects and policy developments. The world is different from that of 50 years ago but there are continuing issues about the teaching,…

Investigating the Transition Process when Moving from a Spiral Curriculum Alignment into a Field-Focus Science Curriculum Alignment in Middle School

ERIC Educational Resources Information Center

Alwardt, Randi Kay

2011-01-01

This investigation examined the transition from a spiral science curriculum to a field-focus science curriculum in middle school. A spiral science curriculum focuses on a small part of each field of science during each middle school year, more of a general science concept. In contrast to that, the base of a field-focus curriculum is that each…

Illinois Manufacturing Technology Curriculum.

ERIC Educational Resources Information Center

Cliffe, Roger; And Others

This manufacturing technology curriculum involves students in learning problem-solving, communication, team building, quality control, safety, math, science, and technical skills. The document begins with a section on implementation, which gives background information on the purposes and development of the curriculum, explains its rationale,…

A Decade of COMPASS: Improving High School Mathematics Education through a National Curriculum Implementation Center

ERIC Educational Resources Information Center

Allen, Kasi; St. John, Mark; Tambe, Pamela

2009-01-01

Back in 1992, the National Science Foundation (NSF) awarded grants to five curriculum development teams and charged them with the task of starting over. Five years later, each of the development teams had produced an innovative and "integrated" curriculum. All represented notable departures from the commonly encountered, calculus-driven high…

SYMBIOSIS: Development, Implementation, and Assessment of a Model Curriculum across Biology and Mathematics at the Introductory Level

ERIC Educational Resources Information Center

Depelteau, Audrey M.; Joplin, Karl H.; Govett, Aimee; Miller, Hugh A., III; Seier, Edith

2010-01-01

With the support of the East Tennessee State University (ETSU) administration and a grant from Howard Hughes Medical Institute, the departments of Biological Sciences, Mathematics and Statistics, and Curriculum and Instruction have developed a biology-math integrated curriculum. An interdisciplinary faculty team, charged with teaching the 18…

Teacher Professional Development through a Collaborative Curriculum Project--An Example of TPACK in Maine

ERIC Educational Resources Information Center

Allan, Walter C.; Erickson, Jeryl L.; Brookhouse, Phil; Johnson, Judith L.

2010-01-01

Maine's one-to-one laptop program provides an ideal opportunity to explore conditions that optimize teacher integration of technology-focused curriculum into the classroom. EcoScienceWorks (ESW) is an ecology curriculum that includes targeted simulations and a code block programming challenge developed through an NSF-ITEST grant. The project was…

Holt Social Studies Curriculum. Developed by Carnegie Social Studies Curriculum Development Center, Carnegie-Mellon University. Product Development Report 13.

ERIC Educational Resources Information Center

Sanderson, Barbara A.; Kratochvil, Daniel W.

This report is the thirteenth of twenty-one reports dealing with the developmental history of a recent educational product: the Holt Social Studies Curriculum directed by Dr. Edwin Fenton. This series of courses stresses an inquiry approach to the study of history and the social sciences, specifically economic and political systems, world history,…

Mapping and sequencing the human genome: Science, ethics, and public policy. Final report

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

McInerney, J.D.

1993-03-31

Development of Mapping and Sequencing the Human Genome: Science, Ethics, and Public Policy followed the standard process of curriculum development at the Biological Sciences Curriculum Study (BSCS), the process is described. The production of this module was a collaborative effort between BSCS and the American Medical Association (AMA). Appendix A contains a copy of the module. Copies of reports sent to the Department of Energy (DOE) during the development process are contained in Appendix B; all reports should be on file at DOE. Appendix B also contains copies of status reports submitted to the BSCS Board of Directors.

Restoration Science in New York Harbor: It takes a (large, diverse and engaged) village

NASA Astrophysics Data System (ADS)

Newton, R.; Birney, L.; Janis, S.; Groome, M.; Palmer, M.; Bone, E.; O'Neil, J. M.; Hill, J.; Dennison, W.; Malinowski, P.; Kohne, L.; Molina, M.; Moore, G.; Woods, N.

2015-12-01

The Curriculum + Community Enterprise for Restoration Science (CCE-RS) facilitates partnerships between scientists and middle school educators on ecological restoration and environmental monitoring projects. The educational model is designed to wrap around the student, including classroom instruction, field science, after-school programs and engagement with the student's community. Its pillars include: a teacher training fellowship at Pace University, student curriculum, a digital platform, afterschool and summer mentoring, and community exhibits. The digital platform includes a tablet app tailored to the project's field protocols and linked to a database shared across schools and partnering institutions. Through the digital platform, data is integrated into a single citizen-science monitoring project, teachers share curriculum and best practices, and students link directly to their peers at other schools. Curriculum development has been collaborative between scientists, science education specialists, and secondary school teachers. The CCE-RS is rooted in project-based learning: the New York Harbor School has engaged high school students in environmental monitoring and oyster restoration in the Harbor for about the last decade. The science partners (U. of Maryland and Columbia) have been working with students and other citizen scientists in outdoor science over about the last decade. Local partners in outside-the-classroom education include the New York Academy of Sciences, The River Project, which will provide field education services, and Good Shepherd Services, which provides after-school programming in schools serving primarily poor families. Scientists on the project engage directly with teachers and informal educators in curriculum development and citizen-science outreach. We present the lessons learned from our first cohort of Fellows, the pedagogical model, and the digital platform, which is extensible to other ecological restoration settings.

Food-based Science Curriculum Increases 4th Graders Multidisciplinary Science Knowledge

PubMed Central

Hovland, Jana A.; Carraway-Stage, Virginia G.; Cela, Artenida; Collins, Caitlin; Díaz, Sebastián R.; Collins, Angelo; Duffrin, Melani W.

2013-01-01

Health professionals and policymakers are asking educators to place more emphasis on food and nutrition education. Integrating these topics into science curricula using hand-on, food-based activities may strengthen students’ understanding of science concepts. The Food, Math, and Science Teaching Enhancement Resource (FoodMASTER) Initiative is a compilation of programs aimed at using food as a tool to teach mathematics and science. Previous studies have shown that students experiencing the FoodMASTER curriculum were very excited about the activities, became increasingly interested in the subject matter of food, and were able to conduct scientific observations. The purpose of this study was to: 1) assess 4th graders food-related multidisciplinary science knowledge, and 2) compare gains in food-related science knowledge after implementation of an integrated, food-based curriculum. During the 2009–2010 school year, FoodMASTER researchers implemented a hands-on, food-based intermediate curriculum in eighteen 4th grade classrooms in Ohio (n=9) and North Carolina (n=9). Sixteen classrooms in Ohio (n=8) and North Carolina (n=8), following their standard science curricula, served as comparison classrooms. Students completed a researcher-developed science knowledge exam, consisting of 13 multiple-choice questions administered pre- and post-test. Only subjects with pre- and post-test scores were entered into the sample (Intervention n=343; Control n=237). No significant differences were observed between groups at pre-test. At post-test, the intervention group scored (9.95±2.00) significantly higher (p=.000) than the control group (8.84±2.37) on a 13-point scale. These findings suggest the FoodMASTER intermediate curriculum is more effective than a standard science curriculum in increasing students’ multidisciplinary science knowledge related to food. PMID:25152539

Exploring multiple intelligences theory in the context of science education: An action research approach

NASA Astrophysics Data System (ADS)

Goodnough, Karen Catherine

2000-10-01

Since the publication of Frames of Mind: The Theory in Practice, multiple intelligences, theory (Gardner, 1983) has been used by practitioners in a variety of ways to make teaching and learning more meaningful. However, little attention has been focused on exploring the potential of the theory for science teaching and learning. Consequently, this research study was designed to: (1) explore Howard Gardner's theory of multiple intelligences (1983) and its merit for making science teaching and learning more meaningful; (2) provide a forum for teachers to engage in critical self-reflection about their theory and practice in science education; (3) study the process of action research in the context of science education; and (4) describe the effectiveness of collaborative action research as a framework for teacher development and curriculum development. The study reports on the experiences of four teachers (two elementary teachers, one junior high teacher, and one high school teacher) and myself, a university researcher-facilitator, as we participated in a collaborative action research project. The action research group held weekly meetings over a five-month period (January--May, 1999). The inquiry was a qualitative case study (Stake, 1994) that aimed to understand the perspectives of those directly involved. This was achieved by using multiple methods to collect data: audiotaped action research meetings, fieldnotes, semi-structured interviews, journal writing, and concept mapping. All data were analysed on an ongoing basis. Many positive outcomes resulted from the study in areas such as curriculum development, teacher development, and student learning in science. Through the process of action research, research participants became more reflective about their practice and thus, enhanced their pedagogical content knowledge (Shulman, 1987) in science. Students became more engaged in learning science, gained a greater understanding of how they learn, and experienced a science curriculum that was more relevant and personalized. In addition, the action research process provided a feasible and effective forum for both curriculum development and professional development.

Investigating the role of educative curriculum materials in supporting teacher enactment of a field-based urban ecology investigation

NASA Astrophysics Data System (ADS)

Houle, Meredith

2008-10-01

This multiple case study examined how three urban science teachers used curriculum materials designed educatively. Educative curriculum materials have been suggested as one way to support science teacher learning, particularly around new innovations and new pedagogies and to support teachers in evaluating and modifying materials to meet the needs of their students (Davis & Krajcik, 2005). While not a substitute for professional development, educative curriculum materials may provide an opportunity to support teachers' enactment and learning in the classroom context (Davis & Krajcik, 2005; Remillard, 2005; Schneider & Krajcik, 2002). However, little work has examined how science teachers interact with written curriculum materials to design classroom instruction. Grounded in sociocultural analysis, this study takes the theoretical stance that teachers and curriculum materials are engaged in a dynamic and participatory relationship from which the planned and enacted curriculum emerges (Remillard, 2005). Teaching is therefore a design activity where teachers rely on their personal resources and the curricular resources to construct and shape their students' learning experiences (Brown, 2002). Specifically this study examines how teacher beliefs influence their reading and use of curriculum and how educative features in the written curriculum inform teachers' pedagogical decisions. Data sources included classroom observation and video, teacher interviews, and classroom artifacts. To make sense how teachers' make curricular decisions, video were analyzed using Brown's (2002) Pedagogical Design for Enactment Framework. These coded units were examined in light of the teacher interviews, classroom notes and artifacts to examine how teachers' beliefs influenced these decisions. Data sources were then reexamined for evidence of teachers' use of specific educative features. My analyses revealed that teachers' beliefs about curriculum influenced the degree to which teachers relied on their own personal resources or the curricular resources in designing the taught curriculum. Teacher experience was also found to influence the degree to which teachers relied on their personal resources. Implications for teacher learning, professional development and curriculum development are discussed.

A Project to Develop an Associate of Science Degree Curriculum in Renewable Energy Resources and Applications in Agriculture. Final Report, July 1, 1980-June 30, 1981.

ERIC Educational Resources Information Center

Allen, Keith; Fielding, Marvin R.

A project was conducted at State Fair Community College (SFCC) in Sedalia, Missouri, to develop an associate of science degree curriculum in renewable energy resources and their application in agriculture. A pilot study, designed to verify and rate the importance of 138 competencies in fuel alcohol production and to ascertain employment…

The Pennsylvania Academy for the Profession of Teaching; Rural Fellowship Program: A Science Curriculum Development Partnership. Project "Prepare Them for the Future."

ERIC Educational Resources Information Center

Beisel, Raymond W.

This report describes development of the "Prepare Them for the Future" project, a K-3 activity-oriented science curriculum. The program, funded through two grants, was driven by the need to boost the distressed labor-based economy in rural western Pennsylvania. Data showed a drop of 1,100 coal-mining jobs between 1980 and 1986 in Indiana…

Greenhouse Effect in the Classroom: A Project- and Laboratory-Based Curriculum.

ERIC Educational Resources Information Center

Lueddecke, Susann B.; Pinter, Nicholas; McManus, Scott A.

2001-01-01

Tests a multifaceted curriculum for use in introductory earth science classes from the secondary school to the introductory undergraduate level. Simulates the greenhouse effect with two fish tanks, heat lamps, and thermometers. Uses a hands-on science approach to develop a deeper understanding of the climate system among students. (Contains 28…

Marine Activity Dynamics (M.A.D.). Unit S.

ERIC Educational Resources Information Center

Rhode Island State Dept. of Education, Providence. Education Information Center.

This curriculum guide describes an activity-oriented marine study program, designed for use with middle school children (grade 5). The content focuses primarily upon the life sciences, with some emphasis on chemistry and geology. Following the development of a rationale for the inclusion of marine sciences in the school curriculum, a middle…

Test Anxiety and the Curriculum: The Subject Matters.

ERIC Educational Resources Information Center

Everson, Howard T.; And Others

College students' self-reported test anxiety levels in English, mathematics, physical science, and social science were compared to develop empirical support for the claim that students, in general, are more anxious about tests in rigorous academic subjects than in the humanities and to understand the curriculum-related sources of anxiety. It was…

Life Science. Nevada Competency-Based Adult High School Diploma Project.

ERIC Educational Resources Information Center

Nevada Univ., Las Vegas. Coll. of Education.

This document is one of ten curriculum guides developed by the Nevada Competency-Based Adult High School Diploma (CBAHSD) Project. This curriculum guide on life science is divided into twelve topics. The topics included are Life Process, Cells, Levels of Organization, Organ Systems, Food and Oxygen-Photosynthesis, Cycles, Energy, Resources, Cell…

Manufacturing. Technology Education-Mathematics and Science Interface Project.

ERIC Educational Resources Information Center

Smith, Kenneth L., Ed.

The curriculum materials contained in this document were developed through a cooperative effort by educators in the state of Maryland. It was a curriculum project aimed at the meaningful integration of mathematics and science. It is suggested that these materials be used in two significant ways. First, this document can serve as an instructional…

Construction. Technology Education-Mathematics and Science Interface Project.

ERIC Educational Resources Information Center

Maryland State Dept. of Education, Baltimore. Div. of Vocational-Technical Education.

The curriculum materials contained in this document were developed through a cooperative effort by educators in the state of Maryland. It was a curriculum project aimed at the meaningful integration of mathematics and science. It is suggested that these materials be used in two significant ways. First, this document can serve as an instructional…

Infusing Alcohol and Drug Prevention with Existing Classroom Study Units: Science.

ERIC Educational Resources Information Center

Valencia Community Coll., Orlando, FL.

This curriculum module, one of seven developed by the "Infusion Project," offers information and lessons on drug use prevention for integration into an existing seventh-grade middle school science curriculum. The module, based on a type of interactive learning called infusion learning, contains 12 lessons, each providing objectives, a…

Transportation. Technology Education-Mathematics and Science Interface Project.

ERIC Educational Resources Information Center

Smith, Kenneth L., Ed.

The curriculum materials contained in this document were developed through a cooperative effort by educators in the state of Maryland. It was a curriculum project aimed at the meaningful integration of mathematics and science. It is suggested that these materials be used in two significant ways. First, this document can serve as an instructional…

Developing Pre-Service Elementary Teachers' Pedagogical Practices While Planning Using the Learning Cycle

ERIC Educational Resources Information Center

Ross, Danielle K.; Cartier, Jennifer L.

2015-01-01

Without the science content knowledge required to effectively teach this discipline, many elementary teachers struggle without the support of curriculum materials. Curriculum materials are often the main means by which these science practices and canonical knowledge are incorporated into lessons. As part of a 5-year longitudinal research and…

Cybersecurity Curriculum Development: Introducing Specialties in a Graduate Program

ERIC Educational Resources Information Center

Bicak, Ali; Liu, Michelle; Murphy, Diane

2015-01-01

The cybersecurity curriculum has grown dramatically over the past decade: once it was just a couple of courses in a computer science graduate program. Today cybersecurity is introduced at the high school level, incorporated into undergraduate computer science and information systems programs, and has resulted in a variety of cybersecurity-specific…

Engineering design skills coverage in K-12 engineering program curriculum materials in the USA

NASA Astrophysics Data System (ADS)

Chabalengula, Vivien M.; Mumba, Frackson

2017-11-01

The current K-12 Science Education framework and Next Generation Science Standards (NGSS) in the United States emphasise the integration of engineering design in science instruction to promote scientific literacy and engineering design skills among students. As such, many engineering education programmes have developed curriculum materials that are being used in K-12 settings. However, little is known about the nature and extent to which engineering design skills outlined in NGSS are addressed in these K-12 engineering education programme curriculum materials. We analysed nine K-12 engineering education programmes for the nature and extent of engineering design skills coverage. Results show that developing possible solutions and actual designing of prototypes were the highly covered engineering design skills; specification of clear goals, criteria, and constraints received medium coverage; defining and identifying an engineering problem; optimising the design solution; and demonstrating how a prototype works, and making iterations to improve designs were lowly covered. These trends were similar across grade levels and across discipline-specific curriculum materials. These results have implications on engineering design-integrated science teaching and learning in K-12 settings.

Preparing Science Teachers for Culturally Diverse Students: Developing Cultural Literacy Through Cultural Immersion, Cultural Translators and Communities of Practice

NASA Astrophysics Data System (ADS)

Chinn, Pauline W. U.

2006-09-01

This three year study of P-12 professional development is grounded in sociocultural theories that hold that building knowledge and relationships among individuals from different cultural backgrounds entails joint activity toward common goals and cultural dialogues mediated by cultural translators. Sixty P-12 pre and in-service teachers in a year long interdisciplinary science curriculum course shared the goal of developing culturally relevant, standards-based science curricula for Native Hawai'ian students. Teachers and Native Hawai'ian instructors lived and worked together during a five day culture-science immersion in rural school and community sites and met several times at school, university, and community sites to build knowledge and share programs. Teachers were deeply moved by immersion experiences, learned to connect cultural understandings, e.g., a Hawai'ian sense of place and curriculum development, and highly valued collaborating with peers on curriculum development and implementation. The study finds that long term professional development providing situated learning through cultural immersion, cultural translators, and interdisciplinary instruction supports the establishment of communities of practice in which participants develop the cross-cultural knowledge and literacy needed for the development of locally relevant, place and standards-based curricula and pedagogy.

Science Teacher Decision-Making in a Climate of Heightened Accountability: A Rhizomatic Case Study Analysis of Two Science Departments in New York City

NASA Astrophysics Data System (ADS)

Purohit, Kiran Dilip

Secondary science teachers make many daily decisions in the enactment of curriculum. Although curriculum materials are widely available to address science content, practices, and skills, the consideration that goes into deciding how and whether to use such materials is complicated by teachers' beliefs about science, their understandings of school-level accountability and testing measures, and their perspectives on the adolescent students they teach. This study addresses the need to understand how teachers consider multiple forces in their enactment of science curriculum. The purpose of this study was to explore the ways that discourses around accountability, science, and science education emerge in the narratives around teachers' decision-making in secondary science classrooms. Using a case study approach, I worked at two school sites with two pairs of science teachers. We established criteria for critical incidents together, then teachers identified critical decision-making moments in their classrooms. We analyzed those incidents together using a consultancy protocol, allowing teachers to focus their thinking on reframing the incidents and imagining other possible outcomes. Using post-structuralist rhizomatics, I assembled analyses of teachers' discussions of the critical incidents in the form of dramatization--scenes and monologues. I then developed two major interpretive strands. First, I connected teachers' sense of having "no time" to blocs of affect tied to larger discourses of national security, teacher accountability, and the joy of scientific discovery. Second, I demonstrated how teachers' concern in following logical pathways and sequences in science relates to the imposition of accountability measures that echo the outcomes-driven logic of the learning sciences. Across both interpretations, I found accountability to be complex, multidirectional, and unpredictable in how it works on and through teachers as they make decisions. Research in this area has important practical implications in the fields of professional development, curriculum development, and school change. As more states (including New York) adopt standards derived from the Next Generation Science Standards (NGSS), the importance of privileging teachers' investment and critical decision-making in the process of new curriculum development is vital. I suggest that tools like video-based coaching and consultancy protocol discussions support this kind of thoughtful curricular change.

Developing a Phonological Awareness Curriculum: Reflections on an Implementation Science Framework

ERIC Educational Resources Information Center

Goldstein, Howard; Olszewski, Arnold

2015-01-01

Purpose: This article describes the process of developing and implementing a supplemental early literacy curriculum designed for preschoolers demonstrating delays in literacy development. Method: Intervention research and implementation research have traditionally been viewed as sequential processes. This article illustrates a process of…

The Effects of a Science-Focused STEM Intervention on Gifted Elementary Students' Science Knowledge and Skills

ERIC Educational Resources Information Center

Robinson, Ann; Dailey, Debbie; Hughes, Gail; Cotabish, Alicia

2014-01-01

To develop Science, Technology, Engineering, and Mathematics (STEM) talents, both researchers and policy developers recommend that educators begin early. In this randomized study, we document the efficacy of teacher professional development and a rich problem-based inquiry curriculum to develop the science talent of elementary students. The…

Work-Based Curriculum to Broaden Learners' Participation in Science: Insights for Designers

NASA Astrophysics Data System (ADS)

Bopardikar, Anushree; Bernstein, Debra; Drayton, Brian; McKenney, Susan

2018-05-01

Around the globe, science education during compulsory schooling is envisioned for all learners regardless of their educational and career aspirations, including learners bound to the workforce upon secondary school completion. Yet, a major barrier in attaining this vision is low learner participation in secondary school science. Because curricula play a major role in shaping enacted learning, this study investigated how designers developed a high school physics curriculum with positive learning outcomes in learners with varied inclinations. Qualitative analysis of documents and semistructured interviews with the designers focused on the curriculum in different stages—from designers' ideas about learning goals to their vision for enactment to the printed materials—and on the design processes that brought them to fruition. This revealed designers' emphases on fostering workplace connections via learning goals and activities, and printed supports. The curriculum supported workplace-inspired, hands-on design-and-build projects, developed to address deeply a limited set of standards aligned learning goals. The curriculum also supported learners' interactions with relevant workplace professionals. To create these features, the designers reviewed other curricula to develop vision and printed supports, tested activities internally to assess content coverage, surveyed states in the USA receiving federal school-to-work grants and reviewed occupational information to choose unit topics and career contexts, and visited actual workplaces to learn about authentic praxis. Based on the worked example, this paper offers guidelines for designing work-based science curriculum products and processes that can serve the work of other designers, as well as recommendations for research serving designers and policymakers.

"A Sketch Is Like a Sentence": Curriculum Structures that Support Teaching Epistemic Practices of Science

ERIC Educational Resources Information Center

Enfield, Mark; Smith, Edward L.; Grueber, David J.

2008-01-01

This research reports on a study of curriculum materials development and use compared with the use of existing curriculum materials in an elementary classroom. The research explored the effect of explicit attention to epistemic practices in curriculum materials and the enactment of those materials. Epistemic practices include asking questions,…

Language Curriculum Analysis of French Literature in Iranian Universities at BA

ERIC Educational Resources Information Center

Rahmatian, Rouhollah; Cheraghi, Haleh; Letafati, Roya; Safa, Parivash

2017-01-01

This article attempts to realize the dominant approach in developing the academic curriculum of language degree and French literature in Iran. It concentrates on analyzing the content of the curriculum approved by the Ministry of Science, Research and Technology in Iran and the University of Tehran. It was concluded that the first curriculum opts…

How Social and Critical Constructivism Can Inform Science Curriculum Design: A Study from South Africa

ERIC Educational Resources Information Center

Stears, Michele

2009-01-01

Background: The introduction of a new National Curriculum in post-apartheid South Africa heralded a different approach in education. This curriculum not only advocated the development of knowledge and skills, but also emphasised education for democracy and citizenship. It seeks to balance central control (and a single curriculum) with local…

Advantages and Challenges of Using Physics Curricula as a Model for Reforming an Undergraduate Biology Course

PubMed Central

Donovan, D. A.; Atkins, L. J.; Salter, I. Y.; Gallagher, D. J.; Kratz, R. F.; Rousseau, J. V.; Nelson, G. D.

2013-01-01

We report on the development of a life sciences curriculum, targeted to undergraduate students, which was modeled after a commercially available physics curriculum and based on aspects of how people learn. Our paper describes the collaborative development process and necessary modifications required to apply a physics pedagogical model in a life sciences context. While some approaches were easily adapted, others provided significant challenges. Among these challenges were: representations of energy, introducing definitions, the placement of Scientists’ Ideas, and the replicability of data. In modifying the curriculum to address these challenges, we have come to see them as speaking to deeper differences between the disciplines, namely that introductory physics—for example, Newton's laws, magnetism, light—is a science of pairwise interaction, while introductory biology—for example, photosynthesis, evolution, cycling of matter in ecosystems—is a science of linked processes, and we suggest that this is how the two disciplines are presented in introductory classes. We illustrate this tension through an analysis of our adaptations of the physics curriculum for instruction on the cycling of matter and energy; we show that modifications of the physics curriculum to address the biological framework promotes strong gains in student understanding of these topics, as evidenced by analysis of student work. PMID:23737629

Advantages and challenges of using physics curricula as a model for reforming an undergraduate biology course.

PubMed

Donovan, D A; Atkins, L J; Salter, I Y; Gallagher, D J; Kratz, R F; Rousseau, J V; Nelson, G D

2013-06-01

We report on the development of a life sciences curriculum, targeted to undergraduate students, which was modeled after a commercially available physics curriculum and based on aspects of how people learn. Our paper describes the collaborative development process and necessary modifications required to apply a physics pedagogical model in a life sciences context. While some approaches were easily adapted, others provided significant challenges. Among these challenges were: representations of energy, introducing definitions, the placement of Scientists' Ideas, and the replicability of data. In modifying the curriculum to address these challenges, we have come to see them as speaking to deeper differences between the disciplines, namely that introductory physics--for example, Newton's laws, magnetism, light--is a science of pairwise interaction, while introductory biology--for example, photosynthesis, evolution, cycling of matter in ecosystems--is a science of linked processes, and we suggest that this is how the two disciplines are presented in introductory classes. We illustrate this tension through an analysis of our adaptations of the physics curriculum for instruction on the cycling of matter and energy; we show that modifications of the physics curriculum to address the biological framework promotes strong gains in student understanding of these topics, as evidenced by analysis of student work.

History, philosophy, and science teaching: The present rapprochement

NASA Astrophysics Data System (ADS)

Matthews, Michael R.

1992-03-01

This paper traces the use of, and arguments for, the history and philosophy of science in school science courses. Specific attention is paid to the British National Curriculum proposals and to the recommendations of the US Project 2061 curriculum guidelines. Some objections to the inclusion of historical material in science courses are outlined and answered. Mention is made of the Piagetian thesis that individual psychological development mirrors the development of concepts in the history of science. This introduces the topic of idealisation in science. Some significant instances are itemised where science education has, at its considerable cost, ignored work in philosophy of science. Arguments for the inclusion of the history and philosophy of science in science teacher education programmes are given. The paper finishes with a list of topical issues in present science education where collaboration between science teachers, historians, philosophers, and sociologists would be of considerable benefit.

Into the Curriculum. Guidance: Why Are You Jealous?; Reading/Language Arts: Family Storytelling-Passing On Tradition; Science/Reading/Language Arts: Middle School Wilderness Survival: An Introduction to the Big Six[TM] Research Model; Social Studies: Printing ABCs; Social Studies: Using Literature To Discuss the Revolutionary War.

ERIC Educational Resources Information Center

Mayo, Jeanne B. Pilgrim; Bautz, Kim

2001-01-01

Provides five fully developed library media activities that are designed for use with specific curriculum units in guidance, reading, language arts, science, and social studies. Library media skills, curriculum objectives, grade levels, resources, instructional roles, procedures, evaluation, and follow-up are described for each activity. (LRW)

Into the Curriculum. Guidance: Sense of Self, Self-Esteem; Health: Clean Hands, Clean Books; Mathematics/Science: What's the Heaviest Thing in the Library Media Center?; Reading/Language Arts: Merry-Go-Round Mooo-ving Picture Show; Social Studies: I Came to School By !; Social Studies: Revolutionary War Facts.

ERIC Educational Resources Information Center

School Library Media Activities Monthly, 2001

2001-01-01

Provides six fully developed library media activities that are designed for use with specific curriculum units in guidance, health, mathematics, science, reading, language arts, and social studies. Library media skills, curriculum objectives, grade levels, resources, instructional roles, procedures, evaluation, and follow-up are described for each…

Into the Curriculum. Art: Landscape Painting; Home Economics/Social Studies: Greek Clothing; Reading/Language Arts: In Search of Greek and Roman Gods and Goddesses!; Science: Magnets; Social Studies/Language Arts: Great Primary Sources on the Great Depression: Using the Library of Congress Collections Online.

ERIC Educational Resources Information Center

Barbour, Jeffrey Paul; Ward, Lisa M.

2001-01-01

Provides five fully developed library media activities that are designed for use with specific curriculum units in art, home economics, social studies, reading, language arts, and science. Library Media skills, curriculum objectives, grade levels, resources, instructional roles, procedures, evaluation, and follow-up are described for each…

Exploring ecology through science terms: A computer-supported vocabulary supplement to the science curriculum in a two-way immersion program

NASA Astrophysics Data System (ADS)

Herrera, Francisco Javier, Jr.

This study set out to examine how a web-based tool embedded with vocabulary strategies, as part of the science curriculum in a third grade two-way immersion classroom, would aid students' academic vocabulary development. Fourteen students (seven boys, seven girls; ten of which were English learners) participated in this study. Students utilized web pages as part of their science curriculum on the topic of ecology. The study documented students' use of the web pages as a data-gathering tool on the topic of ecology during science instruction. Students were video and audio taped as they explored the web pages. Results indicated that through the use of the intervention web pages students significantly improved their knowledge of academic English target words.

A case study of systemic curricular reform: A forty-year history

NASA Astrophysics Data System (ADS)

Laubach, Timothy Alan

What follows is a description of the development of a particular inquiry-based elementary school science curriculum program and how its theoretical underpinnings positively influenced a school district's (K-12) science program and also impacted district- and state-wide curriculum reform initiatives. The district's science program has evolved since the inception of the inquiry-based elementary school science curriculum reform forty years ago. Therefore, a historical case study, which incorporated grounded theory methodology, was used to convey the forty-year development of a science curriculum reform effort and its systemic influences. Data for this study were collected primarily through artifacts, such as technical and non-technical documents, and supported and augmented with interviews. Fifteen people comprised the interview consortium with professional responsibilities including (a) administrative roles, such as superintendents, assistant superintendents, principals, and curriculum consultants/coordinators; (b) classroom roles, such as elementary and secondary school teachers who taught science; (c) partnership roles, such as university faculty who collaborated with those in administrative and classroom positions within the district; and (d) the co-director of SCIS who worked with the SCIS trial center director. Data were analyzed and coded using the constant comparative method. The analysis of data uncovered five categories or levels in which the curriculum reform evolved throughout its duration. These themes are Initiation, Education, Implementation, Confirmation, and Continuation. These five categories lead to several working hypotheses that supported the sustaining and continuing of a K-12 science curriculum reform effort. These components are a committed visionary; a theory base of education; forums promoting the education of the theory base components; shared-decision making; a university-school partnership; a core group of committed educators and teachers; evidences of success; national and state reform initiatives; a core group of administrators; longevity of the science program; district support (philosophical, financial, and emotional); and community support all contributed to the initiation, education, implementation, confirmation, and the continuation of the systemic curricular reform. The underlying component, or grounded theory generated by the study, that ties these experiences together is the "theory base" that concurrently evolved in the local school district and in a nearby university.

BIBLIOGRAPHY ON CURRICULUM DEVELOPMENT.

ERIC Educational Resources Information Center

Harvard Univ., Cambridge, MA. Graduate School of Education.

THIS BIBLIOGRAPHY LISTS MATERIALS ON VARIOUS ASPECTS OF CURRICULUM DEVELOPMENT. FORTY UNANNOTATED REFERENCES ARE PROVIDED FOR DOCUMENTS DATING FROM 1960 TO 1966. BOOKS, JOURNALS, REPORT MATERIALS, AND SOME UNPUBLISHED MANUSCRIPTS ARE LISTED IN SUCH AREAS AS COGNITIVE STUDIES, VOCATIONAL REHABILITATION, INSTRUCTIONAL MATERIALS, SCIENCE STUDIES, AND…

The integration of technology into the middle and high school science curriculum

NASA Astrophysics Data System (ADS)

Corbin, Jan Frederic

This study was to determine the level of technology implementation into the middle and high school science curriculum by beginning teachers. Research was conducted in two phases. The first phase was a survey that provided demographic data and determined the Level of Technology Implementation, Personal Computer Use, and Current Instructional Practice. Dr. Christopher Moersch developed the survey, Level of Technology Implementation (LoTi(c) ). The data provided insight into what technology teachers use, barriers associated with technology integration, teacher training and development, and technical support. Follow-up interviews were conducted to gather additional qualitative data and information. Analysis of the data found beginning teachers have not received enough technology training to integrate technology seamlessly into the science curriculum. Conclusions cite the need for more technology courses during preservice education, more time during the day for beginning teachers to learn to use the technology available at their schools, consolidation of inservice staff development offerings, and more technical support staff readily available. Recommendations were made to expand the study group to all science teachers, assess the technology capacity of all schools, and conduct needs assessment of inservice staff development.

Integrating Ubunifu, informal science, and community innovations in science classrooms in East Africa

NASA Astrophysics Data System (ADS)

Semali, Ladislaus M.; Hristova, Adelina; Owiny, Sylvia A.

2015-12-01

This study examines the relationship between informal science and indigenous innovations in local communities in which students matured. The discussion considers methods for bridging the gap that exists between parents' understanding of informal science ( Ubunifu) and what students learn in secondary schools in Kenya, Tanzania, and Uganda. In an effort to reconcile the difference between students' lived experiences and Science, Technology, Engineering, and Mathematics (STEM) taught in classrooms, this study presents an experiential iSPACES instructional model as an example of curriculum integration in science classrooms. The culmination is presentation of lessons learned from history, including Africa's unique contributions to science, theory, and indigenous innovations, in the hope that these lessons can spur the development of new instructional practices, standards, curriculum materials, professional and community development, and dialogue among nations.

The HMI Report on Secondary Schools.

ERIC Educational Resources Information Center

Education in Science, 1980

1980-01-01

Discussed is an exhaustive inquiry into the curriculum of British secondary schools. It concentrates on the four curriculum aspects of language, mathematics, science, and pupil personal and social development. (RE)

A Philosophical Approach to Describing Science Content: An Example From Geologic Classification.

ERIC Educational Resources Information Center

Finley, Fred N.

1981-01-01

Examines how research of philosophers of science may be useful to science education researchers and curriculum developers in the development of descriptions of science content related to classification schemes. Provides examples of concept analysis of two igneous rock classification schemes. (DS)

A Leader's Guide to Mathematics Curriculum Topic Study

ERIC Educational Resources Information Center

Keeley, Page; Mundry, Susan; Tobey, Cheryl Rose; Carroll, Catherine E.

2012-01-01

The Curriculum Topic Study (CTS) process, funded by the National Science Foundation, supports teachers in improving practice by connecting standards and research to curriculum, instruction, and assessment. Designed for facilitators, this guide provides a robust set of professional development tools, templates, and designs to strengthen mathematics…

Scientific Skills and Processes in Curriculum Resources

ERIC Educational Resources Information Center

Kremer, Joe

2017-01-01

Increasingly, the science education community has recognized the need for curriculum resources that support student development of authentic scientific practices, rather than focusing exclusively on content knowledge. This paper proposes a tool for teachers and researchers to assess the degree to which certain curriculum resources and lessons…

From Flavr Savr Tomatoes to Stem Cell Therapy: Young People's Understandings of Gene Technology, 15 Years on

NASA Astrophysics Data System (ADS)

Lewis, Jenny

2014-02-01

This paper explores knowledge and understanding of basic genetics and gene technologies in school students who have been taught to a `science for all' National Curriculum and compares 482 students in 1995 (gene technology was a new and rapidly developing area of science with potential to impact on everyday life; the first cohort of students had been taught to the National Curriculum for Science) with 154 students in 2011 (genomics had replaced gene technology as a rapidly developing area of science with potential to impact on everyday life; science as a core subject within the National Curriculum was well established). These studies used the same questions, with the same age group (14-16) across the same (full) ability range; in addition the 2011 sample were asked about stem cells, stem cell technology and epigenetics. Students in 2011 showed: better knowledge of basic genetics but continuing difficulty in developing coherent explanatory frameworks; a good understanding of the nature of stem cells but no understanding of the process by which such cells become specialised; better understanding of different genetic technologies but also a wider range of misunderstandings and confusions (both between different genetic technologies and with other biological processes); continuing difficulty in evaluating potential veracity of short `news' items but greater awareness of ethical issues and the range of factors (including knowledge of genetics) which could be drawn on when justifying a view or coming to a decision. Implications for a `science for all' curriculum are considered.

Science: Model Curriculum Guide, Kindergarten through Grade Eight.

ERIC Educational Resources Information Center

California State Dept. of Education, Sacramento.

This guide was developed with the intention of helping teachers and school site administrators in California review the elementary science curriculum and compare it to an idealized model that is presented in the document. Part I of the guide provides a summary of a number of characteristics considered to be important to a strong elementary science…

Physical Optics. [Aids to Individualize the Teaching of Science, Mini-Course Units.

ERIC Educational Resources Information Center

Brilhart, Walt

This booklet, one of a series developed by the Frederick County Board of Education, Frederick, Maryland, provides an instruction module for an individualized or flexible approach to secondary science teaching. Subjects and activities in this series of booklets are designed to supplement a basic curriculum or to form a total curriculum, and relate…

Food Science 7075. Curriculum Guide.

ERIC Educational Resources Information Center

North Carolina State Dept. of Public Instruction, Raleigh. Div. of Vocational and Technical Education Services.

This curriculum guide was developed as a resource for teachers to use in planning and implementing a competency-based instructional program on food science in the 11th and 12th grades. It contains materials for a 2-semester course, based on the North Carolina Program of Studies (revised 1992); it is designed to help students learn about the…

Triple Science GCSEs: Curriculum Planning and Design. GCSEs in Biology, Chemistry and Physics

ERIC Educational Resources Information Center

Morris, Pam; Quill, John

2007-01-01

This publication will provide managers and others with practical advice on how to plan, develop and model the Triple Science requirement, taking into account all the critical factors that need to be considered. This guidance concentrates on curriculum planning and design, including the use of the new (2006) specifications to provide Triple Science…

Power and Energy. Technology Education-Mathematics and Science Interface Project.

ERIC Educational Resources Information Center

Maryland State Dept. of Education, Baltimore. Div. of Vocational-Technical Education.

The curriculum materials contained in this document were developed through a cooperative effort by educators in the state of Maryland. It was a curriculum project aimed at the meaningful integration of mathematics and science. It is suggested that these materials be used in two significant ways. First, this document can serve as an instructional…

Electronic Components, Transducers, and Basic Circuits. A Study Guide of the Science and Engineering Technician Curriculum.

ERIC Educational Resources Information Center

Mowery, Donald R.

This study guide is part of a program of studies entitled the Science and Engineering Technician (SET) Curriculum developed for the purpose of training technicians in the use of electronic instruments and their applications. The program integrates elements from the disciplines of chemistry, physics, mathematics, mechanical technology, and…

Career Preparation in Agricultural Production: A Curriculum Guide for High School Vocational Agriculture. Test Edition.

ERIC Educational Resources Information Center

McGhee, Max B., Comp.

This curriculum guide in agricultural production is one of 10 guides developed as part of a vocational project stressing agribusiness, natural resources, and environmental protection. The scope of this guide includes four occupational subgroups: animal science, plant science, farm mechanics, and farm business management. It is meant as an aid to…

Making Science Meaningful for Young People with Diverse Needs

ERIC Educational Resources Information Center

Stead, Di

2015-01-01

In the autumn term of 2011, it was identified that a programme of support for developing science in the curriculum was required at a newly opened special school, Beacon Reach, in Lancashire, which caters to children with autism spectrum disorders. Staff wanted to provide a relevant and meaningful curriculum, accessible even to young people who…

Outcomes of a Self-Regulated Learning Curriculum Model

ERIC Educational Resources Information Center

Peters-Burton, Erin E.

2015-01-01

The purpose of this study was to describe connections among students' views of nature of science in relation to the goals of a curriculum delivered in a unique setting, one where a researcher and two teachers collaborated to develop a course devoted to teaching students about how knowledge is built in science. Students proceeded through a cycle of…

The Biome Project: Developing a Legitimate Parallel Curriculum for Physical Education and Life Sciences

ERIC Educational Resources Information Center

Hastie, Peter Andrew

2013-01-01

The purpose of this article is to describe the outcomes of a parallel curriculum project between life sciences and physical education. Throughout a 6-week period, students in grades two through five became members of teams that represented different animal species and biomes, and concurrently participated in a season of gymnastics skills and…

Analysis of Students' Assessments in Middle School Curriculum Materials: Aiming Precisely at Benchmarks and Standards.

ERIC Educational Resources Information Center

Stern, Luli; Ahlgren, Andrew

2002-01-01

Project 2061 of the American Association for the Advancement of Science (AAAS) developed and field-tested a procedure for analyzing curriculum materials, including assessments, in terms of contribution to the attainment of benchmarks and standards. Using this procedure, Project 2061 produced a database of reports on nine science middle school…

The Interaction of Michigan Environmental Education Curriculum, Science Teachers' Pedagogical Content Knowledge, and Environmental Action Competence

ERIC Educational Resources Information Center

Alvarado, Angelita P.

2010-01-01

One of the main goals of Environmental Education (EE) is to develop people's environmental stewardship, which includes people's capacity to take environmental action--their action competence (AC). The purposes of my study were to characterize the interactions found in an EE curriculum, science teachers' pedagogical content knowledge (PCK), and…

The MORPG-Based Learning System for Multiple Courses: A Case Study on Computer Science Curriculum

ERIC Educational Resources Information Center

Liu, Kuo-Yu

2015-01-01

This study aimed at developing a Multiplayer Online Role Playing Game-based (MORPG) Learning system which enabled instructors to construct a game scenario and manage sharable and reusable learning content for multiple courses. It used the curriculum of "Introduction to Computer Science" as a study case to assess students' learning…

The Challenge of Learning Physics Before Mathematics: A Case Study of Curriculum Change in Taiwan

NASA Astrophysics Data System (ADS)

Chiu, Mei-Shiu

2016-12-01

The aim of this study was to identify challenges in implementing a physics-before- 10 mathematics curriculum. Obviously, students need to learn necessary mathematics skills in order to develop advanced physics knowledge. In the 2010 high school curriculum in Taiwan, however, grade 11 science students study two-dimensional motion in physics without prior learning experiences of trigonometry in mathematics. The perspectives of three curriculum developers, 22 mathematics and physics teachers, two principals, and 45 science students were obtained by interview. The results of qualitative data analysis revealed six challenges and suggested likely solutions. The national level includes political and social challenges, resolved by respecting teachers as professionals; the teacher level includes knowledge and teaching challenges, resolved by increasing teacher trans-literal capacities; and the student level includes learning and justice challenges, resolved by focusing on students' diverse developments in cross-domain learning.

Inquiry-based science in the middle grades: Assessment of learning in urban systemic reform

NASA Astrophysics Data System (ADS)

Marx, Ronald W.; Blumenfeld, Phyllis C.; Krajcik, Joseph S.; Fishman, Barry; Soloway, Elliot; Geier, Robert; Tali Tal, Revital

2004-12-01

Science education standards established by American Association for the Advancement of Science (AAAS) and the National Research Council (NRC) urge less emphasis on memorizing scientific facts and more emphasis on students investigating the everyday world and developing deep understanding from their inquiries. These approaches to instruction challenge teachers and students, particularly urban students who often have additional challenges related to poverty. We report data on student learning spanning 3 years from a science education reform collaboration with the Detroit Public Schools. Data were collected from nearly 8,000 students who participated in inquiry-based and technology-infused curriculum units that were collaboratively developed by district personnel and staff from the University of Michigan as part of a larger, district-wide systemic reform effort in science education. The results show statistically significant increases on curriculum-based test scores for each year of participation. Moreover, the strength of the effects grew over the years, as evidenced by increasing effect size estimates across the years. The findings indicate that students who historically are low achievers in science can succeed in standards-based, inquiry science when curriculum is carefully developed and aligned with professional development and district policies. Additional longitudinal research on the development of student understanding over multiple inquiry projects, the progress of teacher enactment over time, and the effect of changes in the policy and administrative environment would further contribute to the intellectual and practical tools necessary to implement meaningful standards-based systemic reform in science.

Increasing Participation in the Earth Sciences A 35 year Journey

NASA Astrophysics Data System (ADS)

Blueford, J. R.

2006-12-01

In the 1970's the fact that woman and ethnic minorities men made up approximately10% of the workforce in the geosciences created concern. Determining ways to increase the participation became a topic of discussion amongst many of the geosciences agencies in the United States. Many created scholarships and work opportunities for students. One of the most successful projects was the MPES (Minority Participation in the Earth Science) Program implemented by the U.S. Geological Survey. A key factor in its success was its outreach programs which used employees to work in elementary schools to get children excited about earth sciences. Successive years added teacher workshops and developing career day presentations to help school districts increase the awareness of the earth sciences. However, cutbacks prevented the continuation of these programs, but from the ashes a new non-profit organization of scientists, the Math Science Nucleus, developed curriculum and implementation strategies that used Earth Sciences as a core content area. Using the power of the internet, it provided teachers and parents around the world content driven curriculum. The Integrating Science, Math, and Technology Reference Curriculum is used around the world to help teachers understand how children learn science content.

The Delphi Technique in Identifying Learning Objectives for the Development of Science, Technology and Society Modules for Palestinian Ninth Grade Science Curriculum

NASA Astrophysics Data System (ADS)

Abualrob, Marwan M. A.; Gnanamalar Sarojini Daniel, Esther

2013-10-01

This article outlines how learning objectives based upon science, technology and society (STS) elements for Palestinian ninth grade science textbooks were identified, which was part of a bigger study to establish an STS foundation in the ninth grade science curriculum in Palestine. First, an initial list of STS elements was determined. Second, using this list, ninth grade science textbooks and curriculum document contents were analyzed. Third, based on this content analysis, a possible list of 71 learning objectives for the integration of STS elements was prepared. This list of learning objectives was refined by using a two-round Delphi technique. The Delphi study was used to rate and to determine the consensus regarding which items (i.e. learning objectives for STS in the ninth grade science textbooks in Palestine) are to be accepted for inclusion. The results revealed that of the initial 71 objectives in round one, 59 objectives within round two had a mean score of 5.683 or higher, which indicated that the learning objectives could be included in the development of STS modules for ninth grade science in Palestine.

Third World Science: Development Education through Science Teaching.

ERIC Educational Resources Information Center

Williams, Iolo Wyn

Third World Science (TWS) materials were developed to add a multicultural element to the existing science curriculum of 11-16-year-old students. TWS attempts to develop an appreciation of the: (1) boundless fascination of the natural world; (2) knowledge, skills, and expertise possessed by ordinary men and women everywhere; (3) application of…

Comfort and Content: Considerations for Informal Science Professional Development

ERIC Educational Resources Information Center

Holliday, Gary M.; Lederman, Norman G.; Lederman, Judith S.

2014-01-01

This study looked at a life science course that was offered at and taught by education staff of a large informal science institution (ISI) located in the Midwest. The curriculum, materials, and agendas for the course were developed by education staff and complemented a permanent life science exhibition. The researcher developed a content test…

The Proof of the Pudding?: A Case Study of an "At-Risk" Design-Based Inquiry Science Curriculum

NASA Astrophysics Data System (ADS)

Chue, Shien; Lee, Yew-Jin

2013-12-01

When students collaboratively design and build artifacts that require relevant understanding and application of science, many aspects of scientific literacy are developed. Design-based inquiry (DBI) is one such pedagogy that can serve these desired goals of science education well. Focusing on a Projectile Science curriculum previously found to be implemented with satisfactory fidelity, we investigate the many hidden challenges when using DBI with Grade 8 students from one school in Singapore. A case study method was used to analyze video recordings of DBI lessons conducted over 10 weeks, project presentations, and interviews to ascertain the opportunities for developing scientific literacy among participants. One critical factor that hindered learning was task selection by teachers, which emphasized generic scientific process skills over more important cognitive and epistemic learning goals. Teachers and students were also jointly engaged in forms of inquiry that underscored artifact completion over deeper conceptual and epistemic understanding of science. Our research surfaced two other confounding factors that undermined the curriculum; unanticipated teacher effects and the underestimation of the complexity of DBI and of inquiry science in general. Thus, even though motivated or experienced teachers can implement an inquiry science curriculum with good fidelity and enjoy school-wide support, these by themselves will not guarantee deep learning of scientific literacy in DBI. Recommendations are made for navigating the hands- and minds-on aspects of learning science that is an asset as well as inherent danger during DBI teaching.

Nuclear Weapons, Nuclear War and the Health Professions: Curriculum Development in Medical Schools.

ERIC Educational Resources Information Center

Cassell, Christine K.; McCally, Michael

1984-01-01

Describes the design and development of a 10-week course entitled Medical Consequences of Nuclear War, offered to medical and nursing students at the Oregon Health Sciences University. Other curriculum models and teaching materials are also discussed. (SK)

A Curriculum-Linked Professional Development Approach to Support Teachers' Adoption of Web GIS Tectonics Investigations

ERIC Educational Resources Information Center

Bodzin, Alec; Anastasio, David; Sahagian, Dork; Henry, Jill Burrows

2016-01-01

A curriculum-linked professional development approach designed to support middle level science teachers' understandings about tectonics and geospatial pedagogical content knowledge was developed. This approach takes into account limited face-to-face professional development time and instead provides pedagogical support within the design of a…

Biology Curriculum Guide. Bulletin 1646.

ERIC Educational Resources Information Center

Louisiana State Dept. of Education, Baton Rouge. Div. of Academic Programs.

This curriculum guide, developed to establish statewide curriculum standards for the Louisiana Competency-based Education Program, contains the minimum competencies and process skills that should be included in a biology course. It consists of: (1) a rationale for an effective science program; (2) a list and description of four major goals of…

Physics Curriculum Guide. Bulletin 1661.

ERIC Educational Resources Information Center

Louisiana State Dept. of Education, Baton Rouge. Div. of Academic Programs.

This curriculum guide, developed to establish statewide curriculum standards for the Louisiana Competency-based Education Program, contains the minimum competencies and process skills that should be included in a physics course. It consists of: (1) a rationale for an effective science program; (2) a list and description of four major goals of…

Competency-Based Curriculum: An Effective Approach to Digital Curation Education

ERIC Educational Resources Information Center

Kim, Jeonghyun

2015-01-01

The University of North Texas conducted a project involving rigorous curriculum development and instructional design to address the goal of building capacity in the Library and Information Sciences curriculum. To prepare information professionals with the competencies needed for digital curation and data management practice, the project developed…

AIDS Elementary/Intermediate Curriculum.

ERIC Educational Resources Information Center

Kellogg, Nancy Rader

This Acquired Immune Deficiency Syndrome (AIDS) Curriculum was developed for intermediate elementary (5th, 6th, and 7th grade) students. It is an integrated unit that encompasses health, science, social studies, math, and language arts. The curriculum is comprised of nine class activities designed to meet the following objectives: (1) to determine…

Chemistry Curriculum Guide. Bulletin 1660.

ERIC Educational Resources Information Center

Louisiana State Dept. of Education, Baton Rouge. Div. of Academic Programs.

This curriculum guide, developed to establish statewide curriculum standards for the Louisiana Competency-based Education Program, contains the minimum competencies and process skills that should be included in a chemistry course. It consists of: (1) a rationale for an effective science program; (2) a list and description of four major goals of…

The Integrated Early Childhood Curriculum.

ERIC Educational Resources Information Center

Krogh, Suzanne

This textbook provides an outline of an integrated curriculum for early childhood education. Part 1 discusses the human element in school: the child and the teacher and child development. Part 2 contains the curriculum itself and covers the subjects of language, mathematics, science, social studies, art, music, and movement. Guidelines provide…

Designing virtual science labs for the Islamic Academy of Delaware

NASA Astrophysics Data System (ADS)

AlZahrani, Nada Saeed

Science education is a basic part of the curriculum in modern day classrooms. Instructional approaches to science education can take many forms but hands-on application of theory via science laboratory activities for the learner is common. Not all schools have the resources to provide the laboratory environment necessary for hands-on application of science theory. Some settings rely on technology to provide a virtual laboratory experience instead. The Islamic Academy of Delaware (IAD), a typical community-based organization, was formed to support and meet the essential needs of the Muslim community of Delaware. IAD provides science education as part of the overall curriculum, but cannot provide laboratory activities as part of the science program. Virtual science labs may be a successful model for students at IAD. This study was conducted to investigate the potential of implementing virtual science labs at IAD and to develop an implementation plan for integrating the virtual labs. The literature has shown us that the lab experience is a valuable part of the science curriculum (NBPTS, 2013, Wolf, 2010, National Research Council, 1997 & 2012). The National Research Council (2012) stressed the inclusion of laboratory investigations in the science curriculum. The literature also supports the use of virtual labs as an effective substitute for classroom labs (Babateen, 2011; National Science Teachers Association, 2008). Pyatt and Simms (2011) found evidence that virtual labs were as good, if not better than physical lab experiences in some respects. Although not identical in experience to a live lab, the virtual lab has been shown to provide the student with an effective laboratory experience in situations where the live lab is not possible. The results of the IAD teacher interviews indicate that the teachers are well-prepared for, and supportive of, the implementation of virtual labs to improve the science education curriculum. The investigator believes that with the support of the literature and the readiness of the IAD administration and teachers, a recommendation to implement virtual labs into the curriculum can be made.

From FRA to RFN, or How the Family Resemblance Approach Can Be Transformed for Science Curriculum Analysis on Nature of Science

NASA Astrophysics Data System (ADS)

Kaya, Ebru; Erduran, Sibel

2016-12-01

The inclusion of Nature of Science (NOS) in the science curriculum has been advocated around the world for several decades. One way of defining NOS is related to the family resemblance approach (FRA). The family resemblance idea was originally described by Wittgenstein. Subsequently, philosophers and educators have applied Wittgenstein's idea to problems of their own disciplines. For example, Irzik and Nola adapted Wittgenstein's generic definition of the family resemblance idea to NOS, while Erduran and Dagher reconceptualized Irzik and Nola's FRA-to-NOS by synthesizing educational applications by drawing on perspectives from science education research. In this article, we use the terminology of "Reconceptualized FRA-to-NOS (RFN)" to refer to Erduran and Dagher's FRA version which offers an educational account inclusive of knowledge about pedagogical, instructional, curricular and assessment issues in science education. Our motivation for making this distinction is rooted in the need to clarify the various accounts of the family resemblance idea.The key components of the RFN include the aims and values of science, methods and methodological rules, scientific practices, scientific knowledge as well as the social-institutional dimensions of science including the social ethos, certification, and power relations. We investigate the potential of RFN in facilitating curriculum analysis and in determining the gaps related to NOS in the curriculum. We analyze two Turkish science curricula published 7 years apart and illustrate how RFN can contribute not only to the analysis of science curriculum itself but also to trends in science curriculum development. Furthermore, we present an analysis of documents from USA and Ireland and contrast them to the Turkish curricula thereby illustrating some trends in the coverage of RFN categories. The results indicate that while both Turkish curricula contain statements that identify science as a cognitive-epistemic system, they underemphasize science as a social-institutional system. The comparison analysis shows results such as the "scientific ethos" category being mentioned by the Irish curriculum while "social organizations and interactions" category being mentioned by the Turkish curriculum. In all documents, there was no overall coherence to NOS as a holistic narrative that would be inclusive of the various RFN categories simultaneously. The article contributes to the framing of NOS from a family resemblance perspective and highlights how RFN categories can be used as analytical tools.

Preservice elementary teachers learning to use curriculum materials to plan and teach science

NASA Astrophysics Data System (ADS)

Gunckel, Kristin Lee

New elementary teachers rely heavily on curriculum materials, but available science curriculum materials do not often support teachers in meeting specified learning goals, engaging students in the inquiry and application practices of science, or leveraging students' intellectual and cultural resources for learning. One approach to supporting new elementary teachers in using available science curriculum materials is to provide frameworks to scaffold preservice teachers' developing lesson planning and teaching practices. The Inquiry-Application Instructional Model (I-AIM) and the Critical Analysis and Planning (CA&P) tool were designed to scaffold preservice teachers' developing practice to use curriculum materials effectively to plan and teach science. The I-AIM identifies functions for each activity in an instructional sequence. The CA&P provides guides preservice teachers in modifying curriculum materials to better fit I-AIM and leverage students' resources for learning. This study followed three elementary preservice teachers in an intern-level science method course as they learned to use the I-AIM and CA&P to plan and teach a science unit in their field placement classrooms. Using a sociocultural perspective, this study focused on the ways that the interns used the tools and the mediators that influenced how they used the tools. A color-coding analysis procedure was developed to identify the teaching patterns in the interns' planned instructional approaches and enacted activity sequences and compare those to the patterns implied by the I-AIM and CA&P tools. Interviews with the interns were also conducted and analyzed, along with the assignments they completed for their science methods course, to gain insight into the meanings the interns made of the tools and their experiences planning and teaching science. The results show that all three interns had some successes using the I-AIM and CA&P to analyze their curriculum materials and to plan and teach science lessons. However, all three interns used the tools in different ways, and some of their ways of using the tools were different from the intentions for the tools. These differences can be accounted for by the variety of mediators that influenced the interns' use of the I-AIM and CA&P tools. These mediators were rooted in the Discourses at play in the various communities in which the interns participated during their teacher preparation program. Some of the practices and resources of these various Discourses interfered with or supported the interns' use of the I-AIM and CA&P tools. Each intern took a different trajectory through these Discourses and encountered different practices that mediated how each used the I-AIM and CA&P tools. The results of this study suggest that the goal of preparing preservice teachers to use the I-AIM and CA&P tools should be to provide preservice teachers with opportunities to use the tools and help them develop the metaknowledge about the tools necessary to critically analyze the affordances and weaknesses of different approaches to teaching science.

Integrating Information Literacy and Evidence-Based Medicine Content within a New School of Medicine Curriculum: Process and Outcome.

PubMed

Muellenbach, Joanne M; Houk, Kathryn M; E Thimons, Dana; Rodriguez, Bredny

2018-01-01

This column describes a process for integrating information literacy (IL) and evidence-based medicine (EBM) content within a new school of medicine curriculum. The project was a collaborative effort among health sciences librarians, curriculum deans, directors, and faculty. The health sciences librarians became members of the curriculum committees, developed a successful proposal for IL and EBM content within the curriculum, and were invited to become course instructors for Analytics in Medicine. As course instructors, the librarians worked with the other faculty instructors to design and deliver active learning class sessions based on a flipped classroom approach using a proprietary Information Mastery curriculum. Results of this collaboration may add to the knowledge base of attitudes and skills needed to practice as full faculty partners in curricular design and instruction.

A study of the role expectations of the science supervisor and the fostering of collaboration within the high school science department

NASA Astrophysics Data System (ADS)

Hughes, Janet

2001-07-01

The purpose of this study was to determine the extent of agreement among science supervisors and public high school science teachers regarding Actual and Desired role responsibilities for science supervisors in six categories, Curriculum, Methodology, Involvement in the Science Field, Staff Development, Procedural Duties, and Assessment and a seventh category measuring the supervisor's degree of Fostering Collaboration within the department. The Science Supervisor Questionnaire was developed specifically for this study and consisted of items that comprised the most current research on the roles of the science supervisor. The instrument was based on the responsibilities of department heads as delineated through a consolidation of the current research. Although the supervisors and the science teachers agreed among themselves to some extent on the seven subscales, the six role expectations of supervisors (Curriculum, Methodology, Involvement in the Science Field, Staff Development, Procedural Duties, and Assessment) and the Fostering of Collaboration, the amount and degree of consensus varied. There was more consensus in the desired roles of science supervisors suggesting that the groups understand and agree upon the expectations of the position. Those top priorities of science supervisor role expectations for both groups were Methodology, Curriculum, Procedural Duties and Staff Development. There was a difference in perceptions between the two groups of the actual role of the supervisor, indicating that what is actually happening in the science supervisor role conflicts with what is expected. Fostering Collaboration ranked lowest for both groups in both perceived actual and desired science supervisor performance. Fostering Collaboration was not seen as a priority by the supervisors and teachers in the teaching and learning environment. Teachers report that supervisors did not play a key role in fostering collaboration in this study.

Teacher and student supports for implementation of the NGSS

NASA Astrophysics Data System (ADS)

Severance, Samuel

Through three articles, this dissertation examines the use of supports for implementing the Next Generation Science Standards (NGSS) within a large urban school district. Article one, titled Organizing for Teacher Agency in Curricular Co-design, examines the need for coherent curriculum materials that teachers' had a meaningful role in shaping and how the use of a co-design approach and specific tools and routines can help to address this need. Article two, titled Relevant Learning and Student Agency within a Citizen Science Design Challenge, examines the need for curriculum materials that provide students with learning experiences they find relevant and that expands their sense of agency and how a curriculum centered around a community-based citizen science design challenge can help achieve such an aim. Article three, titled Implementation of a Novel Professional Development Program to Support Teachers' Understanding of Modeling, examines the need for professional development that builds teachers' understanding of and skill in engaging their students in the practice of developing and using models and how a novel professional development program, the Next Generation Science Exemplar, can aid teachers in this regard by providing them with carefully sequenced professional development activities and specific modeling tools for use in the classroom.

Spaceship Earth: A partnership in curriculum writing

NASA Technical Reports Server (NTRS)

Lindstrom, Marilyn M.

1993-01-01

As the Apollo astronauts left Earth to venture onto the surface of another planetary body, they saw their home planet in a new global perspective. Unmanned NASA missions have given us a closer look at all the other planets in our solar system and emphasized the uniqueness of Earth as the only place in our solar system that can sustain life as we know it. Spaceship Earth is a new science curriculum which was developed to help students and teachers to explore the Earth, to see it in the global perspective, and to understand the relationships among life, the planet, and the sun. Astronaut photographs, especially shuttle pictures, are used as groundbased studies to help students to understand global Earth Science and integrate various aspects of physical, life, and social science. The Spaceship Earth curriculum was developed at by a team of JSC scientists working in collaboration with teachers from local school districts. This project was done under the auspices of Partner-In-Space, a local non-profit organization dedicated to improving science education and our general knowledge of space. The team met once a month for a year then assembled the curriculum during the summer. The project is now in the testing stage as the teachers try it out in their classrooms. It was supported by the Texas Education Agency and will be offered by the State of Texas as a supplemental curriculum for statewide use. Because the curriculum was developed by teachers, it is self contained and the lessons are easy to implement and give students concrete experiences. The three sub-units follow in a logical order, but may be used independently. If they are used separately, they may be tied together by the teacher returning to the basic theme of the global Earth as each unit is completed.

Contemporary Primary Science Curricula in the United Kingdom

ERIC Educational Resources Information Center

Henry, John A.

1976-01-01

Following a review of the impact of Piaget's theories of cognitive development on science curriculum design, the evolution and development of the Science 5/13 Project, designed to extend the work of Nuffield Junior Science Project, is described. Evaluation studies assessing the aims and objectives of this project are detailed. (BT)

ScienceVision: An Inquiry-Based Videodisc Science Curriculum.

ERIC Educational Resources Information Center

Dawson, George

As a result of declining scores, the National Science Foundation has funded numerous materials-development grants. Largest among these is the Interactive Media Science (IMS) Project at Florida State University (FSU) in Tallahassee. This project's mandate is to design, develop, and produce six level III interactive videodisc programs for middle…

Bringing Inquiry Science to K-5 Classrooms

NASA Astrophysics Data System (ADS)

Schachtel, Paula L.; Messina, D. L.; McDermott, L. C.

2006-12-01

As a science coach in the Seattle School District, I am responsible for helping other elementary teachers teach science. For several years, I have been participating in a program that consists of intensive NSF Summer Institutes and an ongoing academic-year Continuation Course. Teachers in this program work through modules in Physics by Inquiry, a research-based curriculum developed by the Physics Education Group at the University of Washington.1 I will discuss how this type of professional development has deepened my understanding of topics in physical science, helped me to teach science by inquiry to my own students, and enabled me to assist my colleagues in implementing inquiry science in their K-5 classrooms. Sponsored by Lillian C. McDermott. 1. A research-based curriculum developed by L.C. McDermott and the Physics Education Group at the University of Washington, Physics by Inquiry, New York, NY, John Wiley & Sons, Inc. (1996.)

The Effects of the Science Curriculum Improvement Study on a Child's Self-Concept

ERIC Educational Resources Information Center

Krockover, Gerald H.; Malcolm, Marshall D.

1977-01-01

Describes research undertaken to determine if Science Curriculum Improvement Study (SCIS) can be instrumental in helping children either maintain or develop a positive self-concept. A total of 189 students in grades 3-6 were assigned to treatment and control groups for a period of four and one-half months. Findings did not reveal overall…

Science and Math Activities and Resources for Teaching Home Economics (S.M.A.R.T.).

ERIC Educational Resources Information Center

Levine, Marjorie C.

This guide was written to aid home economics teachers in developing a greater understanding and use of basic skills in the home economics curriculum. The objectives of this guide are (1) to expand the awareness of underlying mathematics and science principles in the consumer and vocational home economics curriculum and (2) to provide a bank of…

Paleo Biology, Bones: Clues to Mankind's Past. [Aids to Individualize the Teaching of Science, Mini-Course Units.

ERIC Educational Resources Information Center

Owens, Janet

This booklet, one of a series developed by the Frederick County Board of Education, Frederick, Maryland, provides an instruction module for an individualized or flexible approach to secondary science teaching. Subjects and activities in this series of booklets are designed to supplement a basic curriculum or to form a total curriculum, and relate…

A Conceptual Framework for Determining Training Needs of Extension Agents Applied to Dairy Science. The Findings from Extension Studies.

ERIC Educational Resources Information Center

Verma, Satish

A summary of an Extension Education dissertation on a study to develop a framework of curriculum and learning theory features, to determine needs of Extension agents, and to show its application to dairy science is presented. Tyler's rationale for deriving educational objectives (curriculum theory) and Bloom's taxonomy of cognitive behavior…

Islamic values in the Kuwaiti curriculum

NASA Astrophysics Data System (ADS)

Alshahen, Ghanim A.

This study investigated the influence of Islamic values on the curriculum, in particular the Islamic studies and science curricula. Three questionnaires were developed, validated, and used to investigate teachers' and pupils' attitudes toward Islamic values in the curriculum. Four main sections deal with Islamic values in the Islamic studies and science curricula, namely: Islamic values in the textbook, teaching Islamic values, the relationship between Islamic values and the science curriculum, and the Islamic values model. Two instruments were used in this study: questionnaires and interviews. Both qualitative and quantitative data were generated from the sample, which consisted of Islamic studies and science teachers and supervisors in intermediate schools, and pupils studying in the eighth grade in intermediate schools. In the last case, the data were gathered by questionnaire only. The interviews and questionnaires provided explanatory data. The research was carried out in three phases, considering respectively 55 Islamic studies teachers, 55 science teachers who teach the eighth grade in intermediate schools, and 786 pupils who study in the eighth grade in 20 schools. In each school, the researcher selected two classes. This thesis consists of eight chapters. Chapter One provides a general introduction and highlights the general framework of this study. Chapter Two is concerned with the development of the education system in Kuwait and the objectives of the Islamic studies and science curricula in the intermediate stage. Chapter Three presents the conceptions of values, the Islamic values model, and Islamic values in the curriculum. Chapter Four describes the objectives of the study, and its research design methods and procedures used to develop the instruments. The sampling procedure, the data collection procedures, and the statistical methods used to analyse the data are also described. Chapter Five presents and interprets the findings of this study. Data analysis in this chapter deals with the Islamic studies and science teachers' questionnaires and both the teachers' and supervisors' interviews. The interview findings are dealt with according to the key themes. Chapter Seven discusses the main findings related to Islamic values in both curricula. Chapter Eight reflects on the main themes of the investigation as a whole. It gives a brief description of the aims and methods of the study and sets out the major findings, their importance, and limitations. Finally, the study concludes with several recommendations and suggestions for developing Islamic values in the curriculum.

Against all odds: Tales of survival and growth of the Foundational Approaches in Science Teaching (FAST) project

NASA Astrophysics Data System (ADS)

Yamamoto, Karen Kina

This study examines the dynamics of survival and growth of curricular and instructional innovations. It focuses on the Foundational Approaches in Science Teaching (FAST) project, a long-term survivor of reform in science education. Key questions guiding this study include: (1) How did the FAST project survive over the past 30 years? (2) What elements are essential for long-term survival and growth of an innovative science program? (3) Why did the project continue to survive amidst several waves of educational reform? The core of my conceptual framework is that the odds of survival and growth of curricular and instructional innovations are increased by the extent to which resources, theory-based curriculum development processes, and professional development strategies are not only incorporated into but also interdependent within a project. With this framework as a guide, the main methods of data collection were document analysis, interviews, and observations. FAST, developed by the University of Hawaii's Curriculum Research and Development Group (CRDG), consists of a sequential and interdisciplinary middle and high school science program for students in grades 6-10. According to the results of this study, the project was able to survive by receiving constant organizational support from CRDG and a steady source of State funding through the university since 1966; it also retained a relatively small but stable staff of highly qualified project personnel. Formulated on a discipline-based theory that values development of students' intellectual capacities as the platform for curriculum research, design, and development, the FAST project translated this vision of science education into key elements of an innovative program that survived and thrived: (1) an interdisciplinary program consisting of physical, biological, and earth sciences; inquiry as content and process; history and philosophy of science; and links between and among sciences, technology, and society; and (2) teaching and learning strategies that model a community of practicing scientists. This study also identified the main elements of professional development strategies essential for an innovative project's survival and growth: linking curriculum development to required pre-implementation inservice training, engaging project personnel in both of these phases recruiting, training a cadre of experienced FAST teachers as inservice trainers, and providing follow-up professional development seminars. In conclusion, the FAST project survived mainly because the longevity of its leaders gave stability and continuity to the project. Against many odds such as limited financial resources and a small number of staff positions relative to the project's scope, the leaders managed with whatever resources were available to link theory-based curriculum development with professional development and, thereby, increase the project's chances for survival and growth.

A Proposed Perspective for Developing Science Curriculum for the Upper Primary Grades in Accordance to Saudi Arabia's Vision for 2030: An Analytical and Descriptive Study According to Delphi Method

ERIC Educational Resources Information Center

Alhomairi, Abdulqadir Obaidallah A.

2018-01-01

Saudi Arabia's Vision for 2030 in development is exceedingly concerned with curriculum development. It believes that the current curriculum does no longer support the students' preparation for both life and work. Therefore, the present study aimed to reach a consensus by a set of educational experts on the importance of providing the science…

Into the Curriculum. Creative Dramatics: Valentine Lip Sync Book Charades; Language Arts/Social Studies: Found Poetry from Primary Sources; Reading/Language Arts: A Thematic Activity To Herald in the New Year; Science: Asian Elephant Life Cycles; Social Studies: Conservation of Animal Species-Asian Elephants; Social Studies: What Makes a Leader?

ERIC Educational Resources Information Center

Shugar, Candace; Robinson, Alice A.

2003-01-01

Provides six fully developed library media activities that are designed for use with specific curriculum units in creative dramatics, language arts, social studies, reading, and science. Library media skills, curriculum objectives, grade levels, resources, instructional roles, activities and procedures, evaluation, and follow-up are described for…

School Teachers' Experiences of Science Curriculum Reform

NASA Astrophysics Data System (ADS)

Ryder, Jim; Banner, Indira

2013-02-01

We examine teachers' experiences of a major reform of the school science curriculum for 14-16-year olds in England. This statutory reform enhances the range of available science courses and emphasises the teaching of socio-scientific issues and the nature of science, alongside the teaching of canonical science knowledge. This paper examines teachers' experiences of the reform and the factors that condition these experiences. A designed sample of 22 teachers discussed their experiences of the reform within a semi-structured interview. Our analysis considers how the external and internal structures within which teachers work interact with the personal characteristics of teachers to condition their experiences of the curriculum reform. In many cases, personal/internal/external contexts of teachers' work align, resulting in an overall working context that is supportive of teacher change. However, in other cases, tensions within these contexts result in barriers to change. We also explore cases in which external curriculum reform has stimulated the development of new contexts for teachers' work. We argue that curriculum reformers need to recognise the inevitability of multiple teaching goals within a highly differentiated department and school workplace. We also show how experiences of curriculum reform can extend beyond the learning of new knowledge and associated pedagogies to involve challenges to teachers' professional identities. We argue for the extended use of teacher role models within local communities of practice to support such 'identity work'.

A New Curriculum For a Lab-Based Course in Introductory Earth Science: the Combined Effort of a Regional University and Local Community Colleges in the North Cascades Olympic Science Partnership.

NASA Astrophysics Data System (ADS)

Debari, S. M.; Bachmann, J.; Dougan, B.; Fackler-Adams, B.; Grupp, S.; Linneman, S.; Plake, T.; Smith, B.

2005-12-01

The North Cascades Olympic Science Partnership (NCOSP) is a partnership between Western Washington University, three local community colleges, the Northwest Indian College, and 29 K-12 school districts in western Washington State. One of the partnership goals is to improve the teaching and learning of science at the post-secondary level with specific emphasis on the training of future teachers. To this end, Western Washington University (WWU) joined with grass-roots efforts by local 2-year colleges to develop a yearlong science sequence that would directly impact pre-service elementary school teachers and other non-science majors. Students from these 2-year colleges who identify themselves as pre-service teachers go on to a teacher preparation program at WWU. The multi-year process of collaborative work among ~20 faculty from these institutions has produced three quarters of new curriculum in the sciences (including one quarter of Earth Science) that uses the pedagogical approach of Physics for Elementary Teachers (PET) (cpucips.sdsu/web/pet). Each of the science quarters utilizes the theme of the transfer of matter and energy. The Earth Science curriculum (transfer of matter and energy in Earth systems) is a quarter-long, lab-based course that emphasizes a metacognitive approach. The curriculum utilizes questioning, small group work, and small and large class discussions. Whiteboarding, or the process of sharing small-group ideas to a larger group, occupies a central theme in the curriculum. Students learn concepts by doing the lab activities, but the group discussions that promote discourse and questioning among students is a crucial tool in the sense-making and solidification of those concepts. The curriculum stands alone and does not require lectures by the instructors. The instructor's role is as a facilitator and questioner. The Earth Science curriculum is focused on only a few "Big Ideas" that the faculty developers identified in the planning stages. These Big Ideas are incorporated into cycles, or units, that build upon one other. Introductory cycles include the building of the concepts of heat and density and how these relate to Earth topography and the rock cycle. From this the course develops the themes of matter and energy transfer in the Earth (plate tectonics) and in the atmosphere (weather and climate), and the crucial concept of geologic time. The course has pre- and post-assessments built in, as well as cycle exams and homework assignments. We expect that the majority of future elementary teachers that go through local 2-year colleges and through WWU will take this yearlong sequence. They will then be required to take a fourth quarter of investigative science (a more open ended science process class), as well as a traditional science methods class and a science teaching practicum at WWU. Our goal is to graduate elementary school teachers who are science literate and who are well trained enough to bring the process of science into their future classrooms.

Challenging traditional assumptions of high school science through the physics and Everyday Thinking Curriculum(TM)

NASA Astrophysics Data System (ADS)

Ross, Michael J.

Science education in the U.S. has failed for over a century to bring the experience of scientific induction to classrooms, from elementary science to undergraduate courses. The achievement of American students on international comparisons of science proficiency is unacceptable, and the disparities between groups underrepresented in STEM and others are large and resistant to reform efforts. This study investigated the enactment of a physics curriculum designed upon the inductive method in a high school serving mostly students from groups underrepresented in science. The Physics and Everyday Thinking curriculum was designed to model the central practices of science and to provide opportunities for students to both extract general principles of physics and to develop scientific models from laboratory evidence. The findings of this study suggest that scientific induction is not only a process that is well within the capacity of high school students, but they enjoy it as well. Students that engaged in the central practices of science through the inductive method reported a new sense of agency and control in their learning. These findings suggest that modeling the pedagogy of the science classroom upon the epistemology of science can result in a mode of learning that can lead to positive identification with physics and the development of scientific literacy.

Innovations in science education: infusing social emotional principles into early STEM learning

NASA Astrophysics Data System (ADS)

Garner, Pamela W.; Gabitova, Nuria; Gupta, Anuradha; Wood, Thomas

2017-10-01

We report on the development of an after-school and summer-based science, technology, engineering, and mathematics curriculum infused with the arts and social emotional learning content (STEAM SEL). Its design was motivated by theory and research that suggest that STEM education is well-suited for teaching empathy and other emotion-related skills. In this paper, we describe the activities associated with the development and design of the program and the curriculum. We provide expert-ratings of the STEAM and social emotional elements of the program and present instructor and participant feedback about the program's content and its delivery. Our results revealed that infusing the arts and social emotional learning content into science education created a holistic STEM-related curriculum that holds potential for enhancing young children's interest in and appreciation for science and its applications. The data also suggested that the program was well-developed and, generally well-executed. However, experts rated the STEAM elements of the program more positively than the SEL elements, especially with regard to sequencing of lessons and integration among the lessons and hands-on activities, indicating that program revisions are warranted.

Using Science to Take a Stand: Action-Oriented Learning in an Afterschool Science Club

NASA Astrophysics Data System (ADS)

Hagenah, Sara

This dissertation study investigates what happens when students participate in an afterschool science club designed around action-oriented science instruction, a set of curriculum design principles based on social justice pedagogy. Comprised of three manuscripts written for journal publication, the dissertation includes 1) Negotiating community-based action-oriented science teaching and learning: Articulating curriculum design principles, 2) Middle school girls' socio-scientific participation pathways in an afterschool science club, and 3) Laughing and learning together: Productive science learning spaces for middle school girls. By investigating how action-oriented science design principles get negotiated, female identity development in and with science, and the role of everyday social interactions as students do productive science, this research fills gaps in the understanding of how social justice pedagogy gets enacted and negotiated among multiple stakeholders including students, teachers, and community members along what identity development looks like across social and scientific activity. This study will be of interest to educators thinking about how to enact social justice pedagogy in science learning spaces and those interested in identity development in science.

Build IT: Scaling and Sustaining an Afterschool Computer Science Program for Girls

ERIC Educational Resources Information Center

Koch, Melissa; Gorges, Torie; Penuel, William R.

2012-01-01

"Co-design"--including youth development staff along with curriculum designers--is the key to developing an effective program that is both scalable and sustainable. This article describes Build IT, a two-year afterschool and summer curriculum designed to help middle school girls develop fluency in information technology (IT), interest in…

Surviving the Implementation of a New Science Curriculum

NASA Astrophysics Data System (ADS)

Lowe, Beverly; Appleton, Ken

2015-12-01

Queensland schools are currently teaching with the first National Curriculum for Australia. This new curriculum was one of a number of political responses to address the recurring low scores in literacy, mathematics, and science that continue to hold Australia in poor international rankings. Teachers have spent 2 years getting to know the new science curriculum through meetings, training, and exploring the new Australian curriculum documents. This article examines the support and preparation for implementation provided in two regional schools, with a closer look at six specific teachers and their science teaching practices as they attempted to implement the new science curriculum. The use of a survey, field observations, and interviews revealed the schools' preparation practices and the teachers' practices, including the support provided to implement the new science curriculum. A description and analysis of school support and preparation as well as teachers' views of their experiences implementing the new science curriculum reveal both achievements and shortcomings. Problematic issues for the two schools and teachers include time to read and comprehend the curriculum documents and content expectations as well as time to train and change the current processes effectively. The case teachers' experiences reveal implications for the successful and effective implementation of new curriculum and curriculum reform.

A Study to Compare Curriculum of Computer Information Systems and Computer Education and Instructional Technologies

ERIC Educational Resources Information Center

Cavus, Nadire

2008-01-01

Today, developments of information and communication technologies have been developing very fast all over the world. These new technologies were taking an important place in education like other sciences. For this reason, education was developing parallel to new developments on the new technologies. Departments which cover curriculum of new…

Developing Curriculum for Canadian Schools: What We Learned from the Atlantic Salmon

ERIC Educational Resources Information Center

Anderson, Gary J.; And Others

1977-01-01

The process of developing a distinctively Canadian junior high school curriculum unit integrating subject content of history, science, and geography around a common theme is discussed. The unit focuses on the life cycle and environment of the Atlantic Salmon, Salmo salar. (MJB)

Engineering Curriculum in the Preschool Classroom: The Teacher's Experience

ERIC Educational Resources Information Center

Bagiati, Aikaterini; Evangelou, Demetra

2015-01-01

The study presented here focuses on the development of an early education Science, Technology, Engineering and Mathematics (STEM) curriculum with emphasis on engineering. This article presents the teacher's experience as she undertook the task of familiarising herself with the new content and using the curriculum in a university based…

Science of driving.

DOT National Transportation Integrated Search

2016-08-01

The Science of Driving project focused on developing a collaborative relationship to develop curriculum units for middle school and high school students to engage them in exciting real-world scenarios. This effort involved faculty, staff, and student...

Data Driven Professional Development Design for Out-of-School Time Educators Using Planetary Science and Engineering Educational Materials

NASA Astrophysics Data System (ADS)

Clark, J.; Bloom, N.

2017-12-01

Data driven design practices should be the basis for any effective educational product, particularly those used to support STEM learning and literacy. Planetary Learning that Advances the Nexus of Engineering, Technology, and Science (PLANETS) is a five-year NASA-funded (NNX16AC53A) interdisciplinary and cross-institutional partnership to develop and disseminate STEM out-of-school time (OST) curricular and professional development units that integrate planetary science, technology, and engineering. The Center for Science Teaching and Learning at Northern Arizona University, the U.S. Geological Survey Astrogeology Science Center, and the Museum of Science Boston are partners in developing, piloting, and researching the impact of three out of school time units. Two units are for middle grades youth and one is for upper elementary aged youth. The presentation will highlight the data driven development process of the educational products used to provide support for educators teaching these curriculum units. This includes how data from the project needs assessment, curriculum pilot testing, and professional support product field tests are used in the design of products for out of school time educators. Based on data analysis, the project is developing and testing four tiers of professional support for OST educators. Tier 1 meets the immediate needs of OST educators to teach curriculum and include how-to videos and other direct support materials. Tier 2 provides additional content and pedagogical knowledge and includes short content videos designed to specifically address the content of the curriculum. Tier 3 elaborates on best practices in education and gives guidance on methods, for example, to develop cultural relevancy for underrepresented students. Tier 4 helps make connections to other NASA or educational products that support STEM learning in out of school settings. Examples of the tiers of support will be provided.

An evaluation of a science professional development model: Examining participants' learning and use of new knowledge and skills, organizational support and change, and student learning outcomes

NASA Astrophysics Data System (ADS)

Zender, Georgi Anne

The problem of this study was to determine in what ways science professional development would support kindergarten through sixth grade teachers in their implementation of a revised curriculum. The problem centered on evaluating the relationship between professional development involvement and teachers' learning and use of new knowledge and skills, organizational support and change, and student learning outcomes. Using data derived from survey responses and other sources (e.g., test scores, financial records, etc.), this study examined use of a science course of study, use of activities/experiments from workshops, use and adequacy of materials adoptions, administrative support, and achievement scores. This research was completed using an Ex Post Facto research design. Using the General Linear Model and causal-comparative analyses, thus study significantly concluded that teachers with a higher level of involvement in science professional development were more likely to use the revised course of study for lesson planning and to perceive materials adoptions as being adequate, and that districts that had participated in science professional development to revise curriculum showed more gains in student learning outcomes. Data on teachers' learning and use of new knowledge and skills implied that districts needed to continue to design teacher leadership situations that implement long-term professional development, build capacity for shared decision making, create a supportive environment for leaders, and incorporate assessments. Teacher leaders needed to actively engage in action research as a professional development strategy to promote reflection on their teaching and student learning. Data on organizational support and change implied that without logistical and financial support for teaching and learning in terms of hands-on materials, teachers would be unable to support future curriculum improvement efforts. Building principals needed to play a more active role in the implementation of curriculum. Data on student learning outcomes implied that both content knowledge and inquiry skills were critical bases for curriculum in terms of teacher efficacy and student achievement. Teachers needed to examine student work as a professional development strategy to also promote reflection on teaching and learning. Further research and professional development in the area of science assessment, in terms of scientific content and processes, was suggested.

Dissemination of an innovative mastery learning curriculum grounded in implementation science principles: a case study.

PubMed

McGaghie, William C; Barsuk, Jeffrey H; Cohen, Elaine R; Kristopaitis, Theresa; Wayne, Diane B

2015-11-01

Dissemination of a medical education innovation, such as mastery learning, from a setting where it has been used successfully to a new and different medical education environment is not easy. This article describes the uneven yet successful dissemination of a simulation-based mastery learning (SBML) curriculum on central venous catheter (CVC) insertion for internal medicine and emergency medicine residents across medical education settings. The dissemination program was grounded in implementation science principles. The article begins by describing implementation science which addresses the mechanisms of medical education and health care delivery. The authors then present a mastery learning case study in two phases: (1) the development, implementation, and evaluation of the SBML CVC curriculum at a tertiary care academic medical center; and (2) the dissemination of the SBML CVC curriculum to an academic community hospital setting. Contextual information about the drivers and barriers that affected the SBML CVC curriculum dissemination is presented. This work demonstrates that dissemination of mastery learning curricula, like all other medical education innovations, will fail without active educational leadership, personal contacts, dedication, hard work, rigorous measurement, and attention to implementation science principles. The article concludes by presenting a set of lessons learned about disseminating an SBML CVC curriculum across different medical education settings.

Toward a Unified Science Curriculum.

ERIC Educational Resources Information Center

Showalter, Victor M.

The two major models of science curriculum change, textbook revision and national curriculum projects, are derived from, and reinforce, the present curriculum structure. This is undesirable in a time of increasing fluidity and change, because adaptation to new situations is difficult. Unified science, based on the premise that science is a unity,…

SU-F-E-08: Medical Physics as a Teaching Tool for High School Science Curriculum

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

Buckley, L

Purpose: Delivering high school science curriculum in a timely manner and in way that is accessible to all students is a challenge for teachers. Although many high schools offer career workshops, these are typically directed at senior students and do not relate directly to details of the curriculum. The objective of this initiative was to create a series of lectures that use medical physics to relate many aspects of the high school science curriculum to tangible clinical applications and to introduce students to alternate pathways into a career in health sciences. Methods: A series of lectures has been developed basedmore » on the Ontario High School Science Curriculum. Each lecture uses a career in radiotherapy medical physics as the framework for discussion of topics specific to the high school course being addressed. Results: At present, these lectures have been delivered in five area high schools to students ranging from sophomores to seniors. Survey documents are given to the students before and after the lecture to assess their awareness of careers in health care, applications of physics and their general interest in the subject areas. As expected, students have limited up front awareness of the wide variety of health related career paths. The idea of combining a career lecture with topics specific to the classroom curriculum has been well-received by teachers and students alike. Conclusion: Career talks for high school students are useful for students contemplating their post- secondary career path. Relating career discussion with direct course curriculum makes their studies more relevant and engaging. Students aspiring to a career in health sciences often focus their studies on life sciences due to limited knowledge of potential careers. An early introduction to medical physics presents them with an alternate path through the physical sciences into health care.« less

Space Science Curricula

NASA Technical Reports Server (NTRS)

1990-01-01

Johnson High School, Huntsville, Alabama started an international magnet program in 1987. One of the courses in the curriculum was in space science. They appealed to Marshall Space Flight Center (MSFC) when they couldn't find a suitable textbook, nor locate other classes in space science to provide a guideline. MSFC agreed to help and placed the school under an official 'Adopt-A-School' program. MSFC's chief scientist and others at the space center helped prepare a very comprehensive space science program. Examples of the subjects covered include problems of space travel, materials processing in space, technology utilization, robotics, space colonization, etc. MSFC followed up by working with Johnson High to determine if the curriculum is generally usable and workable. If it is, MSFC may make it available to other schools. MSFC not only developed the space science curriculum; they continue to support the program by sponsoring hands- on activities and tours of space research facilities.

Use of the NBME Comprehensive Basic Science Examination as a Progress Test in the Preclerkship Curriculum of a New Medical School

ERIC Educational Resources Information Center

Johnson, Teresa R.; Khalil, Mohammed K.; Peppler, Richard D.; Davey, Diane D.; Kibble, Jonathan D.

2014-01-01

In the present study, we describe the innovative use of the National Board of Medical Examiners (NBME) Comprehensive Basic Science Examination (CBSE) as a progress test during the preclerkship medical curriculum. The main aim of this study was to provide external validation of internally developed multiple-choice assessments in a new medical…

Assessing Science Reasoning and Conceptual Understanding in the Primary Grades Using Standardized and Performance-Based Assessments

ERIC Educational Resources Information Center

Kim, Kyung Hee; VanTassel-Baska, Joyce; Bracken, Bruce A.; Feng, Annie; Stambaugh, Tamra

2014-01-01

Project Clarion, a Jacob K. Javits-funded project, focused on the scale-up of primary-grade science curricula. Curriculum units, based on an Integrated Curriculum Model (ICM), were developed for high-ability learners, but tried out with all students in Title I settings to study the efficacy of the units with all learners. The units focus on the…

Seeking Teachers for Underwater Robotics PD Program

ERIC Educational Resources Information Center

McGrath, Beth; Sayres, Jason

2012-01-01

With funding from the National Science Foundation (NSF), ITEEA members will contribute to the development of a hybrid professional development program designed to facilitate the scale-up of an innovative underwater robotics curriculum. WaterBotics[TM] is an underwater robotics curriculum that targets students in middle and high school classrooms…

Vertical Integration of Geographic Information Sciences: A Recruitment Model for GIS Education

ERIC Educational Resources Information Center

Yu, Jaehyung; Huynh, Niem Tu; McGehee, Thomas Lee

2011-01-01

An innovative vertical integration model for recruiting to GIS education was introduced and tested following four driving forces: curriculum development, GIS presentations, institutional collaboration, and faculty training. Curriculum development was a useful approach to recruitment, student credit hour generation, and retention-rate improvement.…

Promoting children's agency and communication skills in an informal science program

NASA Astrophysics Data System (ADS)

Wulf, Rosemary; Hinko, Kathleen; Finkelstein, Noah

2013-01-01

The Partnerships for Informal Science Education in the Community (PISEC) program at the University of Colorado Boulder brings together university and community institutions to create an environment where K-12 students join with university educators to engage in inquiry-based scientific practices after school. In our original framing, these afterschool activities were developed to reinforce the traditional learning goals of the classroom, including mastering scientific content, skills and processes. Recently, the primary focus of the PISEC curriculum has been shifted towards the development of students' scientific identity, an explicit objective of informal learning environments. The new curriculum offers students more activity choices, affords opportunities for scientific drawings and descriptions, and provides incentive for students to design their own experiments. We have analyzed student science notebooks from both old and new curricula and find that with the redesigned curriculum, students exhibit increased agency and more instances of scientific communication while still demonstrating substantial content learning gains.

Outcomes of a Self-Regulated Learning Curriculum Model

NASA Astrophysics Data System (ADS)

Peters-Burton, Erin E.

2015-10-01

The purpose of this study was to describe connections among students' views of nature of science in relation to the goals of a curriculum delivered in a unique setting, one where a researcher and two teachers collaborated to develop a course devoted to teaching students about how knowledge is built in science. Students proceeded through a cycle of self-regulated phases, forethought, performance, and self-reflection, during each segment of the curriculum: (a) independent research, (b) knowledge building in the discipline of science, and (c) a citizen science project. Student views were measured at the beginning and end of the course using epistemic network analysis. The pretest map reported student understanding of science as experimentation and indicated three clusters representing the durability of knowledge, empirical evidence, and habits of mind, which were loosely connected and represented knowledge generation as external to personal thinking. The posttest map displayed a broader understanding of scientific endeavors beyond experimentation, a shift toward personal knowledge generation, and indicated a larger number of connections among three more tightly oriented clusters: empirical evidence, habits of mind, and tentativeness. Implications include the potential to build curriculum that purposefully considers reinforcing cycles of learning of the nature of science in different contexts.

Designing a primary science curriculum in a globalizing world: How do social constructivism and Vietnamese culture meet?

NASA Astrophysics Data System (ADS)

Hằng, Ngô Vũ Thu; Meijer, Marijn Roland; Bulte, Astrid M. W.; Pilot, Albert

2017-09-01

The implementation of social constructivist approaches to learning science in primary education in Vietnamese culture as an example of Confucian heritage culture remains challenging and problematic. This theoretical paper focuses on the initial phase of a design-based research approach; that is, the description of the design of a formal, written curriculum for primary science education in which features of social constructivist approaches to learning are synthesized with essential aspects of Vietnamese culture. The written design comprises learning aims, a framework that is the synthesis of learning functions, learning settings and educational expectations for learning phases, and exemplary curriculum units. Learning aims are formulated to comprehensively develop scientific knowledge, skills, and attitudes toward science for primary students. Derived from these learning aims, the designed framework consists of four learning phases respectively labeled as Engagement, Experience, Exchange, and Follow-up. The designed framework refers to knowledge of the "nature of science" education and characteristics of Vietnamese culture as an example of Confucian heritage culture. The curriculum design aims to serve as an educational product that addresses previously analyzed problems of primary science education in the Vietnamese culture in a globalizing world.

Learning science with ICT - Developing a pedagogy of successful practice

NASA Astrophysics Data System (ADS)

Rogers, Laurence Trevelyan

The oeuvre which I present spans a period of time during which the use of ICT in science education has been transformed from a technical teaching aid into a major genre of activity on a national and international scale. My contribution to this change has been as a researcher, teacher trainer, software author and electronics designer. Such a combination of roles has made my approach multidisciplinary, creating a unique partnership between research, pedagogy and technical development. The fruits of my work have influenced practice directly in science departments in secondary schools through the publication of articles, chapters and a book, and especially through the dissemination of original curriculum materials, hardware tools and the Insight suite of software. Embedded in these tools are my understandings of the new context for learning science, rooted in constructivism and derived from professional experience, classroom research studies and research literature. My aim throughout has been to promote ideas which will help the science education community gain a vision of the full potential of ICT. It will be shown that my activities in each of three strands, research, literature study and curriculum development, have been interconnected at many stages such that advances in one strand have prompted progress in another in a stepwise fashion. Thus, my curriculum developments have provided the tools for study, my evaluative field research has provided insights for refining the tools and of new opportunities for their use, research literature has deepened my understanding of the issues and has identified criteria for the design of the curriculum tools and for research methodology. In total, this process itself has exemplified a constructivist development and is reflected in the portfolio items which begin with practitioner articles and graduate to papers linking research findings to theoretical arguments.

Using Next Generation Science Standards (NGSS) Practices to Address Scientific Misunderstandings Around Complex Environmental Issues

NASA Astrophysics Data System (ADS)

Turrin, M.; Kenna, T. C.

2014-12-01

The new NGSS provide an important opportunity for scientists to develop curriculum that links the practice of science to research-based data in order to improve understanding in areas of science that are both complex and confusing. Our curriculum focuses in particular on the fate and transport of anthropogenic radionuclides. Radioactivity, both naturally occurring and anthropogenic, is highly debated and largely misunderstood, and for large sections of the population is a source of scientific misunderstanding. Developed as part of the international GEOTRACES project which focuses on identifying ocean processes and quantifying fluxes that control the distributions of selected trace elements and isotopes in the ocean, and on establishing the sensitivity of these distributions to changing environmental conditions, the curriculum topic fits nicely into the applied focus of NGSS with both environmental and topical relevance. Our curriculum design focuses on small group discussion driven by questions, yet unlike more traditional curriculum pieces these are not questions posed to the students, rather they are questions posed by the students to facilitate their deeper understanding. Our curriculum design challenges the traditional question/answer memorization approach to instruction as we strive to develop an educational approach that supports the practice of science as well as the NGSS Cross Cutting Concepts and the Science & Engineering Practices. Our goal is for students to develop a methodology they can employ when faced with a complex scientific issue. Through background readings and team discussions they identify what type of information is important for them to know and where to find a reliable source for that information. Framing their discovery around key questions such as "What type of radioactive decay are we dealing with?", "What is the potential half-life of the isotope?", and "What are the pathways of transport of radioactivity?" allows students to evaluate a given condition, to predict an outcome and to better judge the seriousness of an overall situation. While the problem solving skills students are taught are built around a specific case study, they can be broadly applied to a much wider range of topics, areas of study, and other aspects of their lives as new challenges arise, fitting the goals of NGSS.

Grade six students' understanding of the nature of science

NASA Astrophysics Data System (ADS)

Cochrane, Donald Brian

The goal of scientific literacy requires that students develop an understanding of the nature of science to assist them in the reasoned acquisition of science concepts and in their future role as citizens in a participatory democracy. The purpose of this study was to investigate and describe the range of positions that grade six students hold with respect to the nature of science and to investigate whether gender or prior science education was related to students' views of the nature of science. Two grade six classes participated in this study. One class was from a school involved in a long-term elementary science curriculum project. The science curriculum at this school involved constructivist epistemology and pedagogy and a realist ontology. The curriculum stressed hands-on, open-ended activities and the development of science process skills. Students were frequently involved in creating and testing explanations for physical phenomena. The second class was from a matched school that had a traditional science program. Results of the study indicated that students hold a wider range of views of the nature of science than previously documented. Student positions ranged from having almost no understanding of the nature of science to those expressing positions regarding the nature of science that were more developed than previous studies had documented. Despite the range of views documented, all subjects held realist views of scientific knowledge. Contrary to the literature, some students were able to evaluate a scientific theory in light of empirical evidence that they had generated. Results also indicated that students from the project school displayed more advanced views of the nature of science than their matched peers. However, not all students benefited equally from their experiences. No gender differences were found with respect to students' understanding of the nature of science.

Technology for Science: Overview of the Project.

ERIC Educational Resources Information Center

Crismond, David; And Others

Technology for Science is a National Science Foundation funded program that is developing and testing curriculum units for teacher materials built around a series of design-oriented science problems called "challenges," mainly for ninth-grade general and physical science classes. Technology for science challenges have a clear connection…

The Use of Science Kits in the Professional Development of Rural Elementary School Teachers

ERIC Educational Resources Information Center

Sherman, Ann; MacDonald, A. Leo

2008-01-01

This study reports on a science professional development initiative with elementary school teachers in Canada. Grades 4 and 5 teachers were involved in the implementation and modification of science kits, together with corresponding professional development activities. Each kit was aligned to specific outcomes in the curriculum and provided a…

An analysis of the New York State Earth Science Curriculum with respect to standards, classroom practices, and the Regents Examination

NASA Astrophysics Data System (ADS)

Contino, Julie Anna

In a standards-based system, it is important for all components of the system to align in order to achieve the intended goals. In New York State, standards are provided to the teachers who then create individual curricula that will lead to student success on the state assessment. This mixed methods study presents an analysis of the alignment between the National Science Education Standards (NSES), New York State Physical Setting/Earth Science Core Curriculum (Core Curriculum), and New York State Earth Science Regents Examination (Regents)---the sources teachers use for creating Earth Science curricula in New York State. The NSES were found to have a 49% overlap with the Core Curriculum and a 27% overlap with the Regents. The Core Curriculum and Regents, represented by matrices consisting of performance indicators and cognitive demands, were compared using the Porter alignment index. The alignment was 0.35, categorized as slightly aligned, due to the different emphases on cognitive levels (the Core Curriculum focused on Understand and Apply while the Regents focused on Apply followed by Understand and Remember). Additionally, a purposeful sample of experienced and innovative teachers were surveyed and interviewed to gain insight on how NYS Earth Science teachers organize their scope and sequences, align their lessons with the Core Curriculum, establish internal lesson coherence, and prepare their students for the Regents Exam. Teachers' scope and sequences were well-aligned with the Core Curriculum and Regents but misalignment was found between their lessons and the Core Curriculum as well as between the stated objectives for their students and evaluation of those objectives. Based on the findings, it is suggested that the NSES be revised and the Core Curriculum updated to include quantifiable emphasis on the major understandings such as percentage of time, as well as an emphasis on alignment principles. Teacher professional development focused on alignment issues relative to the state standards and enhancing internal lesson coherence should also be provided. The insights gained from this analysis of the NYS system may be helpful to other states as they move toward standards-based systems.

Into the Curriculum.

ERIC Educational Resources Information Center

School Library Media Activities Monthly, 1986

1986-01-01

Provides fully-developed library media activities designed to be used in connection with specific curriculum units in mathematics (consumer education); reading and language arts ("Foolish People in Folk Tales"); science (dinosaurs); and social studies (Roman cities and Third World countries). (Author/EM)

The Learning Cycle and College Science Teaching.

ERIC Educational Resources Information Center

Barman, Charles R.; Allard, David W.

Originally developed in an elementary science program called the Science Curriculum Improvement Study, the learning cycle (LC) teaching approach involves students in an active learning process modeled on four elements of Jean Piaget's theory of cognitive development: physical experience, referring to the biological growth of the central nervous…

Connecting to the Standards through Marine Science.

ERIC Educational Resources Information Center

New Jersey Marine Sciences Consortium, Fort Hancock. New Jersey Sea Grant Coll. Program.

Marine and related environmental science topics represent a rich resource of meaningful material for New Jersey's educators as they seek to develop standards-based instructional strategies. By adopting and integrating the marine environment science programs and curriculum materials developed by the Education Program at the New Jersey Marine…

New Trends in School Science Equipment.

ERIC Educational Resources Information Center

Lowe, Norman K., Ed.

This four-part volume examines trends, problems, and issues related to school science equipment. Part 1 focuses on laboratory work and practical activities in science and technology education, considering equipment and curriculum development, equipment development related to curricula in Brazil, uses of local resources for practical work,…

The Challenge of Learning Physics before Mathematics: A Case Study of Curriculum Change in Taiwan

ERIC Educational Resources Information Center

Chiu, Mei-Shiu

2016-01-01

The aim of this study was to identify challenges in implementing a physics-before- 10 mathematics curriculum. Obviously, students need to learn necessary mathematics skills in order to develop advanced physics knowledge. In the 2010 high school curriculum in Taiwan, however, grade 11 science students study two-dimensional motion in physics without…

The Effect of Case-Based Curriculum on Cognitive and Affective Characteristics of Students

ERIC Educational Resources Information Center

Ilhan-Beyaztas, Dilek; Özdemir, Burhanettin

2018-01-01

This study aims to determine the effect of case-based curriculum (CBC) on the cognitive and affective characteristics of the pre-service teachers. The case-based curriculum was developed within the scope of the "Introduction to Educational Science" course at the university level. It was applied to experimental groups by two different…

Development and Formative Evaluation of the "Educational Media In-Service Teacher Training Curriculum Standards"

ERIC Educational Resources Information Center

Yoshida, Hiroki

2010-01-01

The first Japanese "curriculum standards" for educational media/ICT in-service teacher training was announced by the Ministry of Education, Science and Culture in April 1973. Since then, the "curriculum standards" has been revised twice. The last revision was made in March 2006, based on the results of a preliminary study that…

Local Production: Principles and Practice

ERIC Educational Resources Information Center

Whittell, J. M. S.

1975-01-01

Presents the problems of Third World countries in acquiring science equipment to augment their science curriculum development plans. Outlines an attempt by Kenya Science Teachers College to produce and supply science equipment. Describes the approach to production, quality control, and costing and sales. (GS)

Ready, Set, SCIENCE!: Putting Research to Work in K-8 Science Classrooms

ERIC Educational Resources Information Center

Michaels, Sarah; Shouse, Andrew W.; Schweingruber, Heidi A.

2007-01-01

What types of instructional experiences help K-8 students learn science with understanding? What do science educators, teachers, teacher leaders, science specialists, professional development staff, curriculum designers, and school administrators need to know to create and support such experiences? "Ready, Set, Science!" guides the way with an…

The AirWaterGas Teacher Professional Development Program: Lessons Learned by Pairing Scientists and Teachers to Develop Curriculum on Global Climate Change and Regional Unconventional Oil and Gas Development

NASA Astrophysics Data System (ADS)

Gardiner, L. S.; Hatheway, B.; Rogers, J. D.; Casey, J. G.; Lackey, G.; Birdsell, D.; Brown, K.; Polmear, M.; Capps, S.; Rosenblum, J.; Sitterley, K.; Hafich, K. A.; Hannigan, M.; Knight, D.

2015-12-01

The AirWaterGas Teacher Professional Development Program, run by the UCAR Center for Science Education, brought together scientists and secondary science teachers in a yearlong program culminating in the development of curriculum related to the impacts of unconventional oil and gas development. Graduate students and research scientists taught about their research area and its relationship to oil and gas throughout three online courses during the 2015-16 school year, during which teachers and scientists engaged in active online discussions. Topics covered included climate change, oil and gas infrastructure, air quality, water quality, public health, and practices and policies relating to oil and gas development. Building upon their initial online interactions and a face-to-face meeting in March, teachers were paired with appropriate AirWaterGas team members as science advisors during a month-long residency in Boulder, Colorado. During the residency, graduate student scientists provided resources and feedback as teachers developed curriculum projects in collaboration with each other and UCAR science educators. Additionally, teachers and AirWaterGas researchers shared experiences on an oil and gas well site tour, and a short course on drilling methods with a drilling rig simulator. Here, we share lessons learned from both sides of the aisle, including initial results from program assessment conducted with the participating teachers.

The re-theorisation of collective pedagogy and emergent curriculum

NASA Astrophysics Data System (ADS)

Fleer, Marilyn

2010-09-01

This essay review of Goulart and Roth's work explores the cultural-historical concepts that they have drawn upon to create a new conception of emergent curriculum in early childhood science education. The pedagogical contexts of Brazilian preschools is discussed in relation to other practices found across cultural communities, with a view to locating the specific research need that has arisen for preschools within Brazil. In the latter part of this article, Davydov's (International perspectives in non-classical psychology, 2008) work on theoretical knowledge and dialectical thinking is discussed in order to further develop Goulart and Roth's conception of early childhood science curriculum.

Teachers and Science Curriculum Materials: Where We Are and Where We Need to Go

ERIC Educational Resources Information Center

Davis, Elizabeth A.; Janssen, Fred J. J. M.; Van Driel, Jan H.

2016-01-01

Curriculum materials serve as a key conceptual tool for science teachers, and better understanding how science teachers use these tools could help to improve both curriculum design and theory related to teacher learning and decision-making. The authors review the literature on teachers and science curriculum materials. The review is organised…

Curriculum-Dependent and Curriculum-Independent Factors in Preservice Elementary Teachers' Adaptation of Science Curriculum Materials for Inquiry-Based Science

ERIC Educational Resources Information Center

Forbes, Cory T.

2013-01-01

In this nested mixed methods study I investigate factors influencing preservice elementary teachers' adaptation of science curriculum materials to better support students' engagement in science as inquiry. Analyses focus on two "reflective teaching assignments" completed by 46 preservice elementary teachers in an undergraduate elementary science…

Curriculum Profiles: A Resource of the EDC K-12 Science Curriculum Dissemination Center

ERIC Educational Resources Information Center

Education Development Center, Inc, 2005

2005-01-01

The purpose of this document is to provide useful information for teachers and school systems engaged in the process of examining and choosing science curriculum materials appropriate for their settings. The curriculum profiles include summaries of selected programs available for K?12 science curriculum programs. Each profile describes a number of…

Curriculum Process in Science Education

NASA Astrophysics Data System (ADS)

Adamčíková, Veronika; Tarábek, Paul

2010-07-01

Physics/science education in the communicative conception is defined as the continuous transfer of the knowledge and methods of physics into the minds of individuals who have not participated in creating them. This process, called the educational communication of physics/science, is performed by various educational agents—teachers, curriculum makers, textbook designers, university teachers and does not mean only a simple transfer of information, but it also involves teaching and instruction at all levels of the school system, the study, learning, and cognition of pupils, students and all other learners, the assessment and evaluation of learning outcomes, curriculum composition and design, the production of textbooks and other means of educational communication and, in addition, university education and the further training of teachers. The educational communication is carried out by the curriculum process of physics/science, which is a sequence of variant forms of curriculum mutually interconnected by curriculum transformations. The variant forms of curriculum are as follows: conceptual curriculum, intended curriculum, project (written) curriculum, operational curriculum, implemented curriculum, and attained curriculum.

Finding the Language to Teach Science

ERIC Educational Resources Information Center

Cavanagh, Sean

2008-01-01

More than 400 educators in the Miami-Dade County, Florida, school system take part in a professional-development and curriculum program that attempts to build students' science knowledge while also helping them master English. Developed by researchers at the University of Miami, the Promoting Science among English Language Learners program…

Understanding the nature of science through the historical development of conceptual models

NASA Astrophysics Data System (ADS)

Metz, Donald J.

Understanding the nature of science has been a common goal in science education for years and continues to hold a distinct place in the recently developed Pan-Canadian science framework. Although the nature of science is often prominent in the front end of such reform documents, the implementation of these goals is presumed to be taught implicitly with the delivery of knowledge outcomes. Research strongly indicates that most students have naive conceptions about the nature of science. Surprisingly, research also clearly shows that science teachers do not fare much better, and that when they do possess adequate understanding of the nature of science it does not significantly influence their behaviour in the classroom. Norm Lederman (1998), one of the leading scholars in this field, describes two approaches advocated by curriculum reform documents to address the nature of science outcomes. The first approach suggests that students can achieve nature of science outcomes by "doing science", the second suggests that history of science can enhance students' understanding of the nature of science. While Lederman advocates the use of the history of science, he argues that these approaches are not effective when used implicitly. He recommends that an explicit approach be used (planned for, taught, assessed), but so far there have been no studies which employ this technique beyond short lessons or limited case histories. This thesis advocates an explicit approach to teaching the nature of science using the historical development of conceptual models. The research study of this thesis integrated the historical development of conceptual models with the traditional content found in a typical grade ten chemistry curriculum. Participants in the research were 74 senior 2 (grade 10) science students from four different classes in three different schools in the province of Manitoba. Prior to, and after instruction, students wrote Lederman's VNOS nature of science test. The tests were reviewed by the researcher and a nature of science profile was compiled for each student. From this profile and the student responses, 24 students (8 from each group) were selected to be interviewed. The research indicates that the HDCM unit was a successful means to improve students' understanding of models, theories, evidence, and the tentativeness of science. The manner in which students employed their examples in the post-test suggests that the historical content of the unit accounts for this change. On the relationship between laws and theories the research indicates that the view that theories advance to laws is an extremely tenacious misconception although students did seem to improve their understanding of laws and theories independently. The HDCM unit did not yield significant results in advancing students understandings of the creative and imaginative aspects of the nature of science. However, there were individual cases where progress was made which might indicate that more opportunity and a longer development time could enhance student understanding in this area. Students also indicated positive attitudes towards the inclusion of the history of science in their curriculum. The HDCM unit presented a more humanistic view of science to the students which was reflected in their interest, motivation, and responses to the curriculum. We should view this results as positive for future curriculum development in this area. Finally, the HDCM unit was shown to significantly influence one practising teacher's understanding of the nature of science.

On track for success: an innovative behavioral science curriculum model.

PubMed

Freedy, John R; Carek, Peter J; Dickerson, Lori M; Mallin, Robert M

2013-01-01

This article describes the behavioral science curriculum currently in place at the Trident/MUSC Family Medicine Residency Program. The Trident/MUSC Program is a 10-10-10 community-based, university-affiliated program in Charleston, South Carolina. Over the years, the Trident/MUSC residency program has graduated over 400 Family Medicine physicians. The current behavioral science curriculum consists of both required core elements (didactic lectures, clinical observation, Balint groups, and Resident Grand Rounds) as well as optional elements (longitudinal patient care experiences, elective rotations, behavioral science editorial experience, and scholars project with a behavioral science focus). All Trident/MUSC residents complete core behavioral science curriculum elements and are free to participate in none, some, or all of the optional behavioral science curriculum elements. This flexibility allows resident physicians to tailor the educational program in a manner to meet individual educational needs. The behavioral science curriculum is based upon faculty interpretation of existing "best practice" guidelines (Residency Review Committee-Family Medicine and AAFP). This article provides sufficient curriculum detail to allow the interested reader the opportunity to adapt elements of the behavioral science curriculum to other residency training programs. While this behavioral science track system is currently in an early stage of implementation, the article discusses track advantages as well as future plans to evaluate various aspects of this innovative educational approach.

Next Generation Science Partnerships

NASA Astrophysics Data System (ADS)

Magnusson, J.

2016-02-01

I will provide an overview of the Next Generation Science Standards (NGSS) and demonstrate how scientists and educators can use these standards to strengthen and enhance their collaborations. The NGSS are rich in content and practice and provide all students with an internationally-benchmarked science education. Using these state-led standards to guide outreach efforts can help develop and sustain effective and mutually beneficial teacher-researcher partnerships. Aligning outreach with the three dimensions of the standards can help make research relevant for target audiences by intentionally addressing the science practices, cross-cutting concepts, and disciplinary core ideas of the K-12 science curriculum that drives instruction and assessment. Collaborations between researchers and educators that are based on this science framework are more sustainable because they address the needs of both scientists and educators. Educators are better able to utilize science content that aligns with their curriculum. Scientists who learn about the NGSS can better understand the frameworks under which educators work, which can lead to more extensive and focused outreach with teachers as partners. Based on this model, the International Ocean Discovery Program (IODP) develops its education materials in conjunction with scientists and educators to produce accurate, standards-aligned activities and curriculum-based interactions with researchers. I will highlight examples of IODP's current, successful teacher-researcher collaborations that are intentionally aligned with the NGSS.

DESCRIPTION OF THE SAN RAFAEL PROGRAM FOR MORE ABLE LEARNERS AS PRESCRIBED IN THE CALIFORNIA ADMINISTRATIVE CODE, ARTICLE 23, SPECIALLY EDUCATIONAL PROGRAMS FOR MENTALLY GIFTED MINORS.

ERIC Educational Resources Information Center

SHORE, ROBERT E.

THE SAN RAFAEL MORE ABLE LEARNER CURRICULUM WAS GEARED TO A SELECT GROUP OF ELEMENTARY SCHOOL STUDENTS. IT ATTEMPTED "TO DEEPEN APPRECIATIONS, ATTITUDES, AND UNDERSTANDINGS THROUGH INCREASED KNOWLEDGE OF THE ARTS AND SCIENCES, AND TO DEVELOP PROFICIENCIES AND SKILLS IN SELECTED AREAS IN THE ARTS AND SCIENCES." THE CURRICULUM OFFERED A…

A Blueprint of Pain Curriculum across Prelicensure Health Sciences Programs: One NIH Pain Consortium Center of Excellence in Pain Education (CoEPE) Experience

PubMed Central

Doorenbos, AZ; Gordon, DB; Tauben, D; Palisoc, J; Drangsholt, M; Lindhorst, T; Danielson, J; Spector, J; Ballweg, R; Vorvick, L; Loeser, JD

2013-01-01

To improve U.S. pain education and promote inter-institutional and inter-professional collaborations, the NIH Pain Consortium has funded 12 sites to develop Centers of Excellence in Pain Education (CoEPE). Each site was given the tasks of development, evaluation, integration, and promotion of pain management curriculum resources, including case studies that will be shared nationally. Collaborations among schools of medicine, dentistry, nursing, pharmacy, and others were encouraged. The John D. Loeser CoEPE is unique in that it represents extensive regionalization of health science education, in this case in the region covering the states of Washington, Wyoming, Alaska, Montana, and Idaho (WWAMI). This paper describes a blueprint of pain content and teaching methods across the University of Washington’s six health sciences schools and provides recommendations for improvement in pain education at the prelicensure level. The Schools of Dentistry and Physician Assistant provide the highest percentage of total required curriculum hours devoted to pain compared with the Schools of Medicine, Nursing, Pharmacy, and Social Work. The findings confirm paucity of pain content in health sciences curricula, missing International Association for the Study of Pain (IASP) curriculum topics, and limited use of innovative teaching methods such as problem-based and team-based learning. PMID:24094694

Teacher Conceptions of Integrated STEM Education and How They Are Reflected in Integrated STEM Curriculum Writing and Classroom Implementation

NASA Astrophysics Data System (ADS)

Ring, Elizabeth A.

There has been a nation-wide push for an increase in the use of integrated science, technology, engineering, and mathematics (STEM) education in the United States. With this shift in epistemological, pedagogical, and curricular content, there is a need to develop an understanding as to what integrated STEM education is, particularly among practitioners. In this dissertation, inservice science teacher conceptions of integrated STEM education were investigated to help understand what these conceptions are and how these conceptions influence curriculum writing and implementation of integrated STEM curricula in classrooms. Teacher conceptions and their influences were investigated through three separate but interrelated studies. First, K-12 inservice science teachers' conceptions of integrated STEM were investigated through the analysis of their sketched models of integrated STEM education. How these models changed throughout an intensive, three-week professional development was also explored. The goal of this first study was to identify conceptual models of integrated STEM education held by inservice science teachers and to understand how these conceptions might change over the course of a professional development. Second, photo elicitation interviews (PEIs) and curricular analysis were used to provide rich descriptions of the conceptual models of integrated STEM education held by inservice science teachers, determine what components of STEM inservice science teachers found fundamental to integrating STEM in the classroom based on their conceptions, and explore how teachers' conceptions of STEM were used in their development of integrated STEM curricula. The goal of this second study was to better understand inservice science teachers' conceptual models of integrated STEM and explore how these models were realized in the teachers' curriculum writing. Third, a multiple-case study was conducted with three teachers to investigate how the conceptual models held by inservice science teachers were enacted in their implementation of an integrated STEM curriculum unit in their classrooms. The goal of this third study was to determine how, if at all, teachers enact their conceptual models of integrated STEM education in the classroom when implementing a STEM curriculum. Together, these three studies helped to broaden the research related to integrated STEM education in the literature. The progressive nature of the studies in this dissertation, as well as the diverse use of methodologies and data analysis, helped to expand STEM education research.

Integrating Leadership Development throughout the Undergraduate Science Curriculum

ERIC Educational Resources Information Center

Reed, Kelynne E.; Aiello, David P.; Barton, Lance F.; Gould, Stephanie L.; McCain, Karla S.; Richardson, John M.

2016-01-01

This article discusses the STEM (science, technology, engineering, and mathematics) Teaching and Research (STAR) Leadership Program, developed at Austin College, which engages students in activities integrated into undergraduate STEM courses that promote the development of leadership behaviors. Students focus on interpersonal communication,…

The Carbon Cycle and the Earth Systems--Studying the Carbon Cycle in Multidisciplinary Environmental Context.

ERIC Educational Resources Information Center

Gudovitch, Yossi; Orion, Nir

This paper describes a method that attempts to confront the challenges of developing an environmentally-based earth sciences program. The research scheme includes five stages: (1) predevelopment study; (2) curriculum development; (3) implementation; (4) formative evaluation; and (5) curriculum modification. The research results indicate that the…

Engineering Students for the 21st Century: Student Development through the Curriculum

ERIC Educational Resources Information Center

Cheville, Alan; Bunting, Chuck

2011-01-01

Through support of the National Science Foundation's Department Level Reform program, "Engineering Students for the 21st Century" (ES21C) has implemented a ten-course sequence designed to help students develop into engineers. Spread across the Electrical and Computer Engineering (ECE) curriculum at Oklahoma State University, these…

Problem Generation in the Mission to Mars Curriculum.

ERIC Educational Resources Information Center

Czarnik, John C., Jr.; Hickey, Daniel T.

This paper will explore a problem finding task the authors developed as one component of the Mission to Mars curriculum, an inquiry-based science unit developed by Petrosino & The Cognition and Technology Group at Vanderbilt (CTGV). The paper also attempts to address evolving conceptions of the problem generation task, primarily from that of…

Effects of a Preschool Mathematics Curriculum: Summative Research on the "Building Blocks" Project

ERIC Educational Resources Information Center

Clements, Douglas H.; Sarama, Julie

2007-01-01

This study evaluated the efficacy of a preschool mathematics program based on a comprehensive model of developing research-based software and print curricula. Building Blocks, funded by the National Science Foundation, is a curriculum development project focused on creating research-based, technology-enhanced mathematics materials for pre-K…

The EarthLabs Approach to Curriculum and Professional Development: Earth Science Education in the 21st Century

NASA Astrophysics Data System (ADS)

Mote, A. S.; Ellins, K. K.; Haddad, N.

2011-12-01

Humans are modifying planet Earth at an alarming rate without fully understanding how our actions will affect the atmosphere, hydrosphere, or biosphere. Recognizing the value of educating people to become citizens who can make informed decisions about Earth's resources and challenges, Texas currently offers Earth and Space Science as a rigorous high school capstone course. The new course has created a need for high quality instructional resources and professional development to equip teachers with the most up to date content knowledge, pedagogical approaches, and technological skills to be able to teach a rigorous Earth and Space Science course. As a participant in the NSF-sponsored Texas Earth and Space Science (TXESS) Revolution teacher professional development program, I was selected to participate in a curriculum development project led by TERC to create Earth System Science and climate change resources for the EarthLabs collection. To this end, I am involved in multiple phases of the EarthLabs project, including reviewing the lab-based units during the development phase, pilot teaching the units with my students, participating in research, and ultimately delivering professional development to other teachers to turn them on to the new modules. My partnership with the EarthLabs project has strengthened my teaching practice by increasing my involvement with curriculum development and collaboration and interaction with other Earth science educators. Critically evaluating the lab modules prior to delivering the lessons to my students has prepared me to more effectively teach the EarthLabs modules in my classroom and present the material to other teachers during professional development workshops. The workshop was also strengthened by planning meetings held with EarthLabs partner teachers in which we engaged in lively discussions regarding misconceptions in Earth science, held by both students and adults, and pedagogical approaches to uncover these misconceptions. Collaboration and discussion among members of the EarthLabs team and partner teachers was instrumental to improving the quality of the EarthLabs modules and the professional development workshop. Furthermore, leading the workshop alongside other partner teachers gave me the confidence and experience to deliver professional development to my colleagues and introduce the newly developed EarthLabs modules to other teachers. In this session I will share my experiences and report on the successes, challenges, and lessons learned from being a part of the EarthLabs curriculum and professional development process.

Renewable Energy Certificate Program

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

Gwendolyn S. Andersen

2012-07-17

This project was primarily to develop and implement a curriculum which will train undergraduate and graduate students at the University seeking a degree as well as training for enrollees in a special certification program to prepare individuals to be employed in a broad range of occupations in the field of renewable energy and energy conservation. Curriculum development was by teams of Saint Francis University Faculty in the Business Administration and Science Departments and industry experts. Students seeking undergraduate and graduate degrees are able to enroll in courses offered within these departments which will combine theory and hands-on training in themore » various elements of wind power development. For example, the business department curriculum areas include economic modeling, finance, contracting, etc. The science areas include meteorology, energy conversion and projection, species identification, habitat protection, field data collection and analysis, etc.« less

Wind-energy Science, Technology and Research (WindSTAR) Consortium: Curriculum, Workforce Development, and Education Plan Final Report

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

Manwell, James

2013-03-19

The purpose of the project is to modify and expand the current wind energy curriculum at the University of Massachusetts Amherst and to develop plans to expand the graduate program to a national scale. The expansion plans include the foundational steps to establish the American Academy of Wind Energy (AAWE). The AAWE is intended to be a cooperative organization of wind energy research, development, and deployment institutes and universities across North America, whose mission will be to develop and execute joint RD&D projects and to organize high-level science and education in wind energy

Presentation on the Modeling and Educational Demonstrations Laboratory Curriculum Materials Center (MEDL-CMC): A Working Model and Progress Report

NASA Astrophysics Data System (ADS)

Glesener, G. B.; Vican, L.

2015-12-01

Physical analog models and demonstrations can be effective educational tools for helping instructors teach abstract concepts in the Earth, planetary, and space sciences. Reducing the learning challenges for students using physical analog models and demonstrations, however, can often increase instructors' workload and budget because the cost and time needed to produce and maintain such curriculum materials is substantial. First, this presentation describes a working model for the Modeling and Educational Demonstrations Laboratory Curriculum Materials Center (MEDL-CMC) to support instructors' use of physical analog models and demonstrations in the science classroom. The working model is based on a combination of instructional resource models developed by the Association of College & Research Libraries and by the Physics Instructional Resource Association. The MEDL-CMC aims to make the curriculum materials available for all science courses and outreach programs within the institution where the MEDL-CMC resides. The sustainability and value of the MEDL-CMC comes from its ability to provide and maintain a variety of physical analog models and demonstrations in a wide range of science disciplines. Second, the presentation then reports on the development, progress, and future of the MEDL-CMC at the University of California Los Angeles (UCLA). Development of the UCLA MEDL-CMC was funded by a grant from UCLA's Office of Instructional Development and is supported by the Department of Earth, Planetary, and Space Sciences. Other UCLA science departments have recently shown interest in the UCLA MEDL-CMC services, and therefore, preparations are currently underway to increase our capacity for providing interdepartmental service. The presentation concludes with recommendations and suggestions for other institutions that wish to start their own MEDL-CMC in order to increase educational effectiveness and decrease instructor workload. We welcome an interuniversity collaboration to further develop the MEDL-CMC model.

Designing an educative curriculum unit for teaching molecular geometry in high school chemistry

NASA Astrophysics Data System (ADS)

Makarious, Nader N.

Chemistry is a highly abstract discipline that is taught and learned with the aid of various models. Among the most challenging, yet a fundamental topic in general chemistry at the high school level, is molecular geometry. This study focused on developing exemplary educative curriculum materials pertaining to the topic of molecular geometry. The methodology used in this study consisted of several steps. First, a diverse set of models were analyzed to determine to what extent each model serves its purpose in teaching molecular geometry. Second, a number of high school teachers and college chemistry professors were asked to share their experiences on using models in teaching molecular geometry through an online questionnaire. Third, findings from the comparative analysis of models, teachers’ experiences, literature review on models and students’ misconceptions, the curriculum expectations of the Next Generation Science Standards and their emphasis on three-dimensional learning and nature of science (NOS) contributed to the development of the molecular geometry unit. Fourth, the developed unit was reviewed by fellow teachers and doctoral-level science education experts and was revised to further improve its coherence and clarity in support of teaching and learning of the molecular geometry concepts. The produced educative curriculum materials focus on the scientific practice of developing and using models as promoted in the Next Generations Science Standards (NGSS) while also addressing nature of science (NOS) goals. The educative features of the newly developed unit support teachers’ pedagogical knowledge (PK) and pedagogical content knowledge (PCK). The unit includes an overview, teacher’s guide, and eight detailed lesson plans with inquiry oriented modeling activities replete with models and suggestions for teachers, as well as formative and summative assessment tasks. The unit design process serves as a model for redesigning other instructional units in science disciplines in general and chemistry courses in particular.

Towards a More Authentic Science Curriculum: The contribution of out-of-school learning

NASA Astrophysics Data System (ADS)

Braund, Martin; Reiss, Michael

2006-10-01

In many developed countries of the world, pupil attitudes to school science decline progressively across the age range of secondary schooling while fewer students are choosing to study science at higher levels and as a career. Responses to these developments have included proposals to reform the curriculum, pedagogy, and the nature of pupil discussion in science lessons. We support such changes but argue that far greater use needs to be made of out-of-school sites in the teaching of science. Such usage will result in a school science education that is more valid and more motivating. We present an “evolutionary model” of science teaching that looks at where learning and teaching take place, and draws together thinking about the history of science and developments in the nature of learning over the past 100 years or so. Our contention is that laboratory-based school science teaching needs to be complemented by out-of-school science learning that draws on the actual world (e.g., through fieldtrips), the presented world (e.g., in science centres, botanic gardens, zoos and science museums), and the virtual worlds that are increasingly available through information technologies.

Reconceptualizing the Nature of Science for Science Education

NASA Astrophysics Data System (ADS)

Dagher, Zoubeida R.; Erduran, Sibel

2016-03-01

Two fundamental questions about science are relevant for science educators: (a) What is the nature of science? and (b) what aspects of nature of science should be taught and learned? They are fundamental because they pertain to how science gets to be framed as a school subject and determines what aspects of it are worthy of inclusion in school science. This conceptual article re-examines extant notions of nature of science and proposes an expanded version of the Family Resemblance Approach (FRA), originally developed by Irzik and Nola (International handbook of research in history, philosophy and science teaching. Springer, Dordrecht, pp 999-1021, 2014) in which they view science as a cognitive-epistemic and as an institutional-social system. The conceptual basis of the expanded FRA is described and justified in this article based on a detailed account published elsewhere (Erduran and Dagher in Reconceptualizing the nature of science for science education: scientific knowledge, practices and other family categories. Springer, Dordrecht, 2014a). The expanded FRA provides a useful framework for organizing science curriculum and instruction and gives rise to generative visual tools that support the implementation of a richer understanding of and about science. The practical implications for this approach have been incorporated into analysis of curriculum policy documents, curriculum implementation resources, textbook analysis and teacher education settings.

Curriculum Implementation and Reform: Teachers' Views about Kuwait's New Science Curriculum

ERIC Educational Resources Information Center

Alshammari, Ahmad

2013-01-01

The MoE (Ministry of Education) in the state of Kuwait is starting to reform the science curriculum in all school academic stages: primary (1-5) grades, intermediate (6-9) grades, and secondary (10-12) grades. The purpose of this study was to explore the opinions of science teachers about Kuwait's new sixth and seventh grade science curriculum,…

Neo-Liberal Individualism and a New Essentialism: A Comparison of Two Australian Curriculum Documents

ERIC Educational Resources Information Center

Smith, Dorothy V.

2011-01-01

This article explores a significant shift in the science curriculum in Victoria, Australia, in the mid-1990s by using the idea of essentialism to compare two science curriculum documents that span the shift. The accounts given in these documents of desirable approaches to teaching science, science itself and the proper scope of curriculum, are…

Teaching Physics in English: A Continuing Professional Development for Non-Native English-Speaking Teachers in Thailand

ERIC Educational Resources Information Center

Pruekpramool, Chaninan; Sangpradit, Theerapong

2016-01-01

The purposes of this study were to develop a Continuing Professional Development (CPD) using English integrated science approach training curriculum and to promote physics teacher's efficacy to be expert teachers and be able to teach Physics in English. The quality of the curriculum was at a high level corresponding to the congruence scores of the…

Investigation of the Factors Affecting the Pre-Test Effect in National Curriculum Science Assessment Development in England

ERIC Educational Resources Information Center

Pyle, Katie; Jones, Emily; Williams, Chris; Morrison, Jo

2009-01-01

Background: All national curriculum tests in England are pre-tested as part of the development process. Differences in pupil performance between pre-test and live test are consistently found. This difference has been termed the pre-test effect. Understanding the pre-test effect is essential in the test development and selection processes and in…

Health Libraries and Information Services in Tanzania: A Strategic Assessment

PubMed Central

Haruna, Hussein; Mtoroki, Majaliwa; Gerendasy, Dan D.; Detlefsen, Ellen G.

2016-01-01

Objective To identify the current status and local impact of health sciences libraries and the perception of these libraries by their users, as a pre-requisite to the development of a competence-based curriculum for health information science training in Tanzania. Methodology A needs assessment was carried out using a convenience sample of local respondents, including librarians, trainers, academicians, students, health care providers and patients and families, drawn from national, referral, regional, district hospitals, health training institutions, and Universities from both government and non-government entities in Tanzania. A focus group approach was used to gather data from respondents. Results Results from this assessment revealed that health science libraries in Tanzania are faced with the challenges of insufficient infrastructure, old technology, limited facilities and furniture, inadequate and incompetent library staff, lack of health sciences librarians, outdated and insufficient resources, as well as low knowledge and use of information technologies by library clients. Most respondents would prefer to have both physical and electronic libraries, as well as librarians with specialized health information science skills, to cope with changing nature of the medical field. Conclusion The findings obtained from this assessment are strong enough to guide the development of a curriculum and training strategy and an operational plan and training packages for health information professionals. The development of a training curriculum for health information science professionals will mean better health information service delivery for Tanzania. PMID:28283146

The Texas Earth and Space Science (TXESS) Revolution: A Model for the Delivery of Earth Science Professional Development to Minority-Serving Teachers

ERIC Educational Resources Information Center

Ellins, K. K.; Snow, E.; Olson, H. C.; Stocks, E.; Willis, M.; Olson, J.; Odell, M. R.

2013-01-01

The Texas Earth and Space Science (TXESS) Revolution was a 5-y teacher professional development project that aimed to increase teachers' content knowledge in Earth science and preparing them to teach a 12th-grade capstone Earth and Space Science course, which is new to the Texas curriculum. The National Science Foundation-supported project was…

Small Schools Social Studies Curriculum, K-3: Reading, Language Arts, Mathematics, Science, Social Studies. Scope Objectives, Activities, Resources, Monitoring Procedures.

ERIC Educational Resources Information Center

Hartl, David, Ed.; And Others

Small schools will find this social studies curriculum guide for grades K-3 helpful in complying with Washington state education laws that require districts to identify student learning objectives and evaluate each student's performance relative to the attainment of the objectives. This curriculum, developed during 1975 and 1976 by teachers and…

Small Schools Mathematics Curriculum, Grades 7-8: Reading, Language Arts, Mathematics, Science, Social Studies. Scope, Objectives, Activities, Resources, Monitoring Procedures.

ERIC Educational Resources Information Center

Hartl, David, Ed.; And Others

Developed during the 1976-77 school year to assist Washington grade 7-8 teachers in small school districts with the improvement of curriculum and instruction, this learning-objective-based curriculum suggests activities, monitoring procedures and resources for mathematics. Introductory materials describe the organization of Small School materials,…

Integrated Technical Curriculum. Curriculum Developed for Project Second Chance II: Tech Reading, Tech Science, Tech Math, Automotive.

ERIC Educational Resources Information Center

Sorensen, Mary K.; And Others

This integrated technical curriculum is designed to enroll and retain adult high school noncompleters in occupational programs by providing them with the remedial and content-area reading instruction needed for success in an automotive program. The following topics are covered in the four units: (1) skills for reading technical materials (basics…

"The Name of the Rose": A Path to Discuss the Birth of Modern Science

ERIC Educational Resources Information Center

Guerra, Andreia; Braga, Marco

2014-01-01

Various science education researchers believe that science tuition should include some discussion about how science has developed over time. Therefore, deliberations about the nature of science should be integrated in the science curriculum. Many researchers argue that teaching the history of science is a good way to place the nature of science in…

Into the Curriculum.

ERIC Educational Resources Information Center

School Library Media Activities Monthly, 1991

1991-01-01

Provides fully developed library media activities that are designed to be used in connection with specific curriculum units, including foreign language (Spanish); reading and language arts (expository writing and use of a thesaurus); science and social studies (land biomes, state birds, and country's flags). (LRW)

Ghosts of Crisis Past.

ERIC Educational Resources Information Center

Klopfer, Leopold E.; Champagne, Audrey B.

1990-01-01

Discussed is the history of school science curriculum reform from the Sputnik era to 1990. The relationship between the crisis in the 1950s and 1990 is addressed. A list of curriculum development programs for all levels and special needs students is included. (KR)

Effectiveness of a Curricular and Professional Development Intervention at Improving Elementary Teachers' Science Content Knowledge and Student Achievement Outcomes: Year 1 Results

ERIC Educational Resources Information Center

Diamond, Brandon S.; Maerten-Rivera, Jaime; Rohrer, Rose Elizabeth; Lee, Okhee

2014-01-01

Teacher knowledge of science content is an important but under-studied construct. A curricular and professional development intervention consisting of a fifth grade science curriculum, teacher workshops, and school site support was studied to determine its effect on teachers' science content knowledge as measured by a science knowledge test,…

Preservice Elementary Teachers' Adaptation of Science Curriculum Materials for Inquiry-Based Elementary Science

ERIC Educational Resources Information Center

Forbes, Cory T.

2011-01-01

Curriculum materials are important resources with which teachers make pedagogical decisions about the design of science learning environments. To become well-started beginning elementary teachers capable of engaging their students in inquiry-based science, preservice elementary teachers need to learn to use science curriculum materials…

Imaginary Subjects: School Science, Indigenous Students, and Knowledge-Power Relations

ERIC Educational Resources Information Center

Kidman, Joanna; Abrams, Eleanor; McRae, Hiria

2011-01-01

The perspectives of indigenous science learners in developed nations offer an important but frequently overlooked dimension to debates about the nature of science, the science curriculum, and calls from educators to make school science more culturally responsive or "relevant" to students from indigenous or minority groups. In this paper…

Innovative curriculum: Integrating the bio-behavioral and social science principles across the LifeStages in basic science years.

PubMed

Lele Mookerjee, Anuradha; Fischer, Bradford D; Cavanaugh, Susan; Rajput, Vijay

2018-05-20

Behavioral and social science integration in clinical practice improves health outcomes across the life stages. The medical school curriculum requires an integration of the behavioral and social science principles in early medical education. We developed and delivered a four-week course entitled "LifeStages" to the first year medical students. The learning objectives of the bio-behavioral and social science principles along with the cultural, economic, political, and ethical parameters were integrated across the lifespan in the curriculum matrix. We focused on the following major domains: Growth and Brain Development; Sexuality, Hormones and Gender; Sleep; Cognitive and Emotional Development; Mobility, Exercise, Injury and Safety; Nutrition, Diet and Lifestyle; Stress and coping skills, Domestic Violence; Substance Use Disorders; Pain, Illness and Suffering; End of Life, Ethics and Death along with Intergenerational issues and Family Dynamics. Collaboration from the clinical and biomedical science departments led to the dynamic delivery of the course learning objectives and content. The faculty developed and led a scholarly discussion, using the case of a multi-racial, multi-generational family during Active Learning Group (ALG) sessions. The assessment in the LifeStages course involved multiple assessment tools: including the holistic assessment by the faculty facilitator inside ALGs, a Team-Based Learning (TBL) exercise, multiple choice questions and Team Work Assessment during which the students had to create a clinical case on a LifeStages domain along with the facilitators guide and learning objectives.

Questioning Questions: Elementary Teachers' Adaptations of Investigation Questions Across the Inquiry Continuum

NASA Astrophysics Data System (ADS)

Biggers, Mandy

2018-02-01

Questioning is a central practice in science classrooms. However, not every question translates into a "good" science investigation. Questions that drive science investigations can be provided by many sources including the teacher, the curriculum, or the student. The variations in the source of investigation questions were explored in this study. A dataset of 120 elementary science classroom videos and associated lesson plans from 40 elementary teachers (K-5) across 21 elementary school campuses were scored on an instrument measuring the amount of teacher-direction or student-direction of the lessons' investigation questions. Results indicated that the investigation questions were overwhelmingly teacher directed in nature, with no opportunities for students to develop their own questions for investigation. This study has implications for researchers and practitioners alike, calling attention to the teacher-directed nature of investigation questions in existing science curriculum materials, and the need for teacher training in instructional strategies to adapt their existing curriculum materials across the continuum of teacher-directed and student-directed investigation questions. Teachers need strategies for adapting the teacher-directed questions provided in their existing curriculum materials in order to allow students the opportunity to engage in this essential scientific practice.

Complex dilemmas of identity and practice

NASA Astrophysics Data System (ADS)

Enyedy, Noel; Goldberg, Jennifer; Muir Welsh, Kate

2006-01-01

Identity is a complex construct, yet extremely important if we wish to understand the practice of teaching as a profession. In this paper, we examine the ways two middle school teachers talk about their identity and teaching practices and coordinate these self-reports with our own observations of how they implement a new environmental science curriculum. More specifically, we compare the teachers' beliefs about learning, goals for the classroom community and for instruction, and their knowledge of science content, and pedagogy. Furthermore, we discuss teaching dilemmas, which arise for these teachers as their identities and practices intersect and at times conflict. We argue, however, that a focus on practice and outcomes is an important, but limited aspect of what we, as a field, need to consider when attempting to understand the complexities of teaching and learning. Therefore, we continue to expand our understanding of two science classrooms as we examine the teachers' multiple identities in relation to their implementation of a science curriculum. The identity portraits from this study provide a rich and complicated account of the implementation of a science curriculum and illuminate a number of potential obstacles and pitfalls, which may inform the way we as a field reflect on curriculum and professional development.

Career Orientation: Grade 7 and 8: A Unified Approach: Science Careers. Activity Manual.

ERIC Educational Resources Information Center

Cincinnati Public Schools, OH.

Career orientation in the science curriculum introduces students to science-related careers and opportunities and enables them to prepare an educational program if they choose a science career. The curriculum guide is designed to aid junior high school science teachers in relating the seventh and eighth grade science curriculum to careers in…

Food-based science curriculum yields gains in nutrition knowledge.

PubMed

Carraway-Stage, Virginia; Hovland, Jana; Showers, Carissa; Díaz, Sebastián; Duffrin, Melani W

2015-04-01

Students may be receiving less than an average of 4 hours of nutrition instruction per year. Integrating nutrition with other subject areas such as science may increase exposure to nutrition education, while supporting existing academics. During the 2009-2010 school year, researchers implemented the Food, Math, and Science Teaching Enhancement Resource (FoodMASTER) Intermediate (FMI) curriculum in 18 fourth-grade classrooms, whereas 16 classrooms served as comparison. FMI is a hands-on, integrative curriculum for children in grades 3-5 that uses food as a tool to teach mathematics and science. Researchers developed a 28-item multiple-choice questionnaire to assess students' nutrition knowledge in 6 content areas. Students were evaluated at baseline and post-intervention. Data were analyzed using independent t tests. Analysis of covariance was employed to control for differences at baseline when assessing the effectiveness of the FMI curriculum to increase nutrition knowledge. A significant improvement was observed in total nutrition knowledge at post-intervention (adjusting for baseline) between groups (F [1] = 128.95; p < .01) and in all content areas post-intervention. Findings from this study suggest teachers were successfully able to integrate science and nutrition to meet multiple academic standards. More specifically, results showed implementation of the integrative FMI curriculum effectively improved fourth-graders' nutrition knowledge compared with students not exposed to FMI. © 2015, American School Health Association.

Nevada Underserved Science Education Program

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

Nicole Rourke; Jason Marcks

2004-07-06

Nevada Underserved Science Education Program (NUSEP) is a project to examine the effect of implementing new and innovative Earth and space science education curriculum in Nevada schools. The project provided professional development opportunities and educational materials for teachers participating in the program.

The Sea Ice Board Game

ERIC Educational Resources Information Center

Bertram, Kathryn Berry

2008-01-01

The National Science Foundation-funded Arctic Climate Modeling Program (ACMP) provides "curriculum resource-based professional development" materials that combine current science information with practical classroom instruction embedded with "best practice" techniques for teaching science to diverse students. The Sea Ice Board…

Development of Science and Mathematics Education System Including Teaching Experience of Students in Local Area

NASA Astrophysics Data System (ADS)

Kage, Hiroyuki

New reformation project on engineering education, which is supported from 2005 to 2008FY by Support Program for Contemporary Educational Needs of Ministry of Education, Culture, Sports, Science and Technology, started in Kyushu Institute of Technology. In this project, teaching experience of students is introduced into the curriculum of Faculty of Engineering. In the curriculum students try to prepare teaching materials and to teach local school pupils with them by themselves. Teaching experience is remarkably effective for them to strengthen their self-dependence and learning motivation. Science Education Center, Science Laboratory and Super Teachers College were also organized to promote the area cooperation on the education of science and mathematics.

Henry David Thoreau, Forest Succession & The Nature of Science: A Method for Curriculum Development

ERIC Educational Resources Information Center

Howe, Eric M.

2009-01-01

A main reason for using the history of science in classroom instruction is its utility in promoting students' understanding of the nature of science (NOS). As indicated in such documents as the "National Science Education Standards," it is important to help students develop their understanding of NOS so that they will become more critical…

Reflecting Socio-Scientific Issues for Science Education Coming from the Case of Curriculum Development on Doping in Chemistry Education

ERIC Educational Resources Information Center

Stolz, Miriam; Witteck, Torsten; Marks, Ralf; Eilks, Ingo

2013-01-01

Socio-scientific issue-based science education has been suggested for promoting general educational skills development in science classes. However, there is a lack of operationalized criteria, which can be used to reflect upon societal issues to whether turning them into issues for science classroom instruction. This paper describes a case study…

Primary Science Curriculum Development in Africa--Strategies, Problems and Prospects with Particular Reference to the African Primary Science Programme.

ERIC Educational Resources Information Center

Bajah, Sam Tunde

1981-01-01

The African Primary Science Programme (APSP) was one of the three major projects in Africa sponsored by Educational Services Incorporated (ESI), later the Educational Development Center (EDC), Newton, Massachusetts. The problems of introducing this programme in the anglophone African States and its implications for science education are discussed.…

Developing Preservice Teachers' Self-Efficacy through Field-Based Science Teaching Practice with Elementary Students

ERIC Educational Resources Information Center

Flores, Ingrid M.

2015-01-01

Thirty preservice teachers enrolled in a field-based science methods course were placed at a public elementary school for coursework and for teaching practice with elementary students. Candidates focused on building conceptual understanding of science content and pedagogical methods through innovative curriculum development and other course…

Conceptualizing the Science Curriculum: 40 Years of Developing Assessment Frameworks in Three Large-Scale Assessments

ERIC Educational Resources Information Center

Kind, Per Morten

2013-01-01

The paper analyzes conceptualizations in the science frameworks in three large-scale assessments, Trends in Mathematics and Science Study (TIMSS), Programme for International Student Assessment (PISA), and National Assessment of Educational Progress (NAEP). The assessments have a shared history, but have developed different conceptualizations. The…

Pros and cons of vertical integration between clinical medicine and basic science within a problem-based undergraduate medical curriculum: examples and experiences from Linköping, Sweden.

PubMed

Dahle, L O; Brynhildsen, J; Behrbohm Fallsberg, M; Rundquist, I; Hammar, M

2002-05-01

Problem-based learning (PBL), combined with early patient contact, multiprofessional education and emphasis on development of communications skills, has become the basis for the medical curriculum at the Faculty of Health Sciences in Linköping (FHS), Sweden, which was started in 1986. Important elements in the curriculum are vertical integration, i.e. integration between the clinical and basic science parts of the curriculum and horizontal integration between different subject areas. This article discusses the importance of vertical integration in an undergraduate medical curriculum, according to experiences from the Faculty of Health Sciences in Linköping, and also give examples on how it has been implemented during the latest 15 years. Results and views put forward in published articles concerning vertical integration within undergraduate medical education are discussed in relation to the experiences in Linköping. Vertical integration between basic sciences and clinical medicine in a PBL setting has been found to stimulate profound rather than superficial learning, and thereby stimulates better understanding of important biomedical principles. Integration probably leads to better retention of knowledge and the ability to apply basic science principles in the appropriate clinical context. Integration throughout the whole curriculum entails a lot of time and work in respect of planning, organization and execution. The teachers have to be deeply involved and enthusiastic and have to cooperate over departmental borders, which may produce positive spin-off effects in teaching and research but also conflicts that have to be resolved. The authors believe vertical integration supports PBL and stimulates deep and lifelong learning.

How a science methods course may influence the curriculum decisions of preservice teachers in the Bahamas

NASA Astrophysics Data System (ADS)

Wisdom, Sonya L.

The purpose of this study was to examine how a science methods course in primary education might influence the curriculum decisions of preservice teachers in The Bahamas related to unit plan development on environmental science topics. Grounded in a social constructivist theoretical framework for teaching and learning science, this study explored the development of the confidence and competence of six preservice teachers to teach environmental science topics at the primary school level. A qualitative case study using action research methodologies was conducted. The perspectives of preservice teachers about the relevancy of methods used in a science methods course were examined as I became more reflective about my practice. Using constant comparative analysis, data from student-written documents and interviews as well as my field notes from class observations and reflective journaling were analyzed for emerging patterns and themes. Findings of the study indicated that while preservice teachers showed a slight increase in interest regarding learning and teaching environmental science, their primary focus during the course was learning effective teaching strategies in science on topics with which they already had familiarity. Simultaneously, I gained a deeper understanding of the usefulness of reflection in my practice. As a contribution to the complexity of learning to teach science at the primary school level, this study suggests some issues for consideration as preservice teachers are supported to utilize more of the national primary science curriculum in The Bahamas.

The Development of Science Concept in Turkey and Effects of Constructivism on 2004 Primary Science Curriculum

ERIC Educational Resources Information Center

Öztürk, Faruk

2016-01-01

The aim of this study is to examine the development of science concept in Turkey. It is seen that the historical process of science concept in Turkey has developed within two stages. The first setting is the later stages of the Ottoman State and the Republican Era, at which time positivism was prevalent as noted in the objectives of the national…

What do primary students know about science, scientists and how they do their work?

NASA Astrophysics Data System (ADS)

Bartels, Selina L.

The teaching of scientific literacy is the primary goal of elementary science education. Scientific literacy is composed of the overall understanding of what science is and how scientific knowledge is developed. The purpose of this study was to see if elementary students' understandings of science, scientists and how scientists do their work changes from grade one to grade five of elementary school. Furthermore, the study attempts to determine whether there is a difference in scientific literacy between students taught using a textbook curriculum versus a kit-based curriculum. The study draws on a sample of 338 students from 18 different classrooms situated in six different schools in both urban and suburban areas of a large Midwestern city. Students' understandings of science, scientists and how they do their work was measured through a valid and reliable oral protocol entitled Young Children's Views of Science (YCVS) (Lederman, J., Bartels, Lederman, & Ganankkan, 2014). The YCVS assesses students' understandings of the aspects of scientific inquiry (SI) and the nature of science (NOS) that young elementary students are able to understand. These aspects are; science, scientists, multiple methods, observation/inference, begins with a question, empirical, subjectivity, tentativeness and creativity. The YCVS was administered orally for grade one students, and a paper-and-pencil version was given to grades three and five. Results indicated that there are very few gains in NOS and SI understandings between grades one and five in the schools included in this study. None of the schools in this study made significant gains for all of the nine aspects measured in this study. Examining curriculum's affect on NOS and SI understandings, understanding of only one aspect was significantly impacted by curriculum differences. Subjectivity understanding was impacted by kit-based instruction. Overall, students' understandings of science, scientists and how they do their work did not significantly change from grade one to grade five regardless of what type of curriculum they followed. This study shows that students' scientific literacy is not being developed throughout elementary school. Therefore, the teaching of scientific literacy in an explicit and reflective manner should be the focus of preservice elementary school education.

Forensic Science Curriculum for High School Students

NASA Astrophysics Data System (ADS)

Burgess, Christiana J.

Over the last several decades, forensic science---the application of science to civil and criminal legal matters---has become of increasing popularity with the public. The range of disciplines within the field is immense, offering individuals the potential for a unique career, regardless of their specific interests or expertise. In response to this growth, many organizations, both public and private, have recognized the need to create forensic science programs that strive to maintain and enhance the quality of forensic science education. Unfortunately, most of the emphasis placed on developing these materials relates to post-secondary education, and creates a significant lack of forensic science educational materials available in the U.S., especially in Oklahoma. The purpose of this project was to create a high school curriculum that provides the foundation for building a broad, yet comprehensive, overview of the field of forensic science and its associated disciplines. The overall goal was to create and provide course materials to high school teachers in order to increase their knowledge of forensic science such that they are able to teach its disciplines effectively and with accuracy. The Forensic Science Curriculum for High School Students includes sample lesson plans, PowerPoint presentations, and lab activities with step-by-step instructions.

Marginalization of Socioscientific Material in Science-Technology-Society Science Curricula: Some Implications for Gender Inclusivity and Curriculum Reform

NASA Astrophysics Data System (ADS)

Hughes, Gwyneth

2000-05-01

Science education reformers have argued that presenting science in the abstract is neither motivating nor inclusive of the majority of students. Science-technology-society (STS) curricula that give science an accessible social context have developed in response, but controversy surrounds the extent to which students should be introduced to socioscientific debate. Using material from a case study of Salters' Advanced Chemistry in the United Kingdom, this article demonstrates how socioscientific material is marginalized through the structures and language of syllabus texts and through classroom practices. This means students are unlikely to engage with socioscientific aspects in their course. Socioscientific content is gendered through association with social concerns and epistemological uncertainty, and because gender is asymmetric, socioscience is devalued with respect to the masculinity of abstract science. Teachers fear that extensive coverage of socioscience devalues the curriculum, alienates traditional science students and jeopardizes their own status as gatekeepers of scientific knowledge. Thus, although STS curricula such as Salters' offer potential for making science more accessible, the article concludes that greater awareness of, and challenges to, gender binaries could result in more effective STS curriculum reform.

Inquiry-Based Science Education: A Scenario on Zambia's High School Science Curriculum

ERIC Educational Resources Information Center

Chabalengula, Vivien M.; Mumba, Frackson

2012-01-01

This paper is aimed at elucidating the current state of inquiry-based science education (IBSE) in Zambia's high school science curriculum. Therefore, we investigated Zambian teachers' conceptions of inquiry; determined inquiry levels in the national high school science curriculum materials, which include syllabi, textbooks and practical exams; and…

The progress test as a diagnostic tool for a new PBL curriculum.

PubMed

Al Alwan, I; Al-Moamary, M; Al-Attas, N; Al Kushi, A; AlBanyan, E; Zamakhshary, M; Al Kadri, H M F; Tamim, H; Magzoub, M; Hajeer, A; Schmidt, H

2011-12-01

The College of Medicine at King Saud bin Abdulaziz University for Health Sciences (KSAU-HS) is running a PBL-based curriculum. A progress test was used to evaluate components of the basic medical and clinical sciences curriculum. To evaluate the performance of students at different levels of the college of medicine curriculum through USMLE-based test that focused on basic medical and clinical sciences topics. The USMLE-based basic medical and clinical sciences progress test has been conducted since 2007. It covers nine topics, including: anatomy; physiology; histology; epidemiology; biochemistry; behavioral sciences, pathology, pharmacology and immunology/microbiology. Here we analyzed results of three consecutive years of all students in years 1-4. There was a good correlation between progress test results and students' GPA. Progress test results in the clinical topics were better than basic medical sciences. In basic medical sciences, results of pharmacology, biochemistry, behavioral sciences and histology gave lower results than the other disciplines. Results of our progress test proved to be a useful indicator for both basic medical sciences and clinical sciences curriculum. Results are being utilized to help in modifying our curriculum.

Innovations in human genetics education. Incorporation of genetics into a problem-based medical school curriculum.

PubMed Central

Swinford, A E; McKeag, D B

1990-01-01

There has been recent interest in the development of problem-based human genetics curricula in U.S. medical schools. The College of Human Medicine at Michigan State University has had a problem-based curriculum since 1974. The vertical integration of genetics within the problem-based curriculum, called "Track II," has recently been revised. On first inspection, the curriculum appeared to lack a significant genetics component; however, on further analysis it was found that many genetics concepts were covered in the biochemistry, microbiology, pathology, and clinical science components. Both basic science concepts and clinical applications of genetics are covered in the curriculum by providing appropriate references for basic concepts and including inherited conditions within the differential diagnosis in the cases studied. Evaluations consist of a multiple-choice content exam and a modified essay exam based on a clinical case, allowing evaluation of both basic concepts and problem-solving ability. This curriculum prepares students to use genetics in a clinical context in their future careers. PMID:2220816

Curriculum Design Issues in Developing a Doctor of Philosophy Program in Aeronology.

ERIC Educational Resources Information Center

Johnson, Jeffrey A.

1997-01-01

Aviation education institutions (75 of 105 surveyed) expressed their preferences for the elements of a Ph.D. program in aeronology (nonengineering aerospace/aeronautical sciences). A research/practitioner model, core curriculum, and second area of specialization were supported. (SK)

Into the Curriculum.

ERIC Educational Resources Information Center

School Library Media Activities Monthly, 1992

1992-01-01

Provides fully developed library media activities for elementary and middle school students, most of which are designed to be used in connection with specific curriculum units. Topics covered include art; reading/language arts, including fiction, point of view, storytelling, and dictionary skills; science; and social studies. (LRW)

Maharishi International University

ERIC Educational Resources Information Center

Goldberg, Phil

1975-01-01

The director of curriculum development at Maharishi International University describes background and design of the program based on the Science of Creative Intelligence (SCI) as a unifying theoretical structure and on transcendental meditation (TM) for expanding awareness and utilizing videotape technology in its core curriculum courses. (JT)

Into the Curriculum.

ERIC Educational Resources Information Center

School Library Media Activities Monthly, 1996

1996-01-01

Provides five fully developed library media activities designed for use with specific curriculum units in art, health and nutrition, mathematics, science, and social studies. Library media skills, objectives, grade levels, instructional roles, procedures, evaluation, and follow-up are described for each activity. Specific topics include aardvarks,…

A Directory of Research and Curriculum Development Projects in Social Science Education.

ERIC Educational Resources Information Center

Lester, Sid; And Others

This directory is designed as a reference for the educator on the activities of the new social studies research and curriculum development projects. It is not an analysis or an evaluation; it merely reports the information supplied by the 100 various projects --name, director, address, purpose, grade, subject, and products. These projects cover…

Advantages and Challenges of Using Physics Curricula as a Model for Reforming an Undergraduate Biology Course

ERIC Educational Resources Information Center

Donovan, D. A.; Atkins, L. J.; Salter, I. Y.; Gallagher, D. J.; Kratz, R. F.; Rousseau, J. V.; Nelson, G. D.

2013-01-01

We report on the development of a life sciences curriculum, targeted to undergraduate students, which was modeled after a commercially available physics curriculum and based on aspects of how people learn. Our paper describes the collaborative development process and necessary modifications required to apply a physics pedagogical model in a life…

How Much Professional Development Is Needed with Educative Curriculum Materials? It Depends upon the Intended Student Learning Outcomes

ERIC Educational Resources Information Center

Schuchardt, Anita M.; Tekkumru-Kisa, Miray; Schunn, Christian D.; Stein, Mary Kay; Reynolds, Birdy

2017-01-01

There is little consensus on the kinds and amounts of teacher support needed to achieve desired student learning outcomes when mathematics is inserted into science classrooms. When supported by educative curriculum materials (ECM) and heavy investment in professional development (PD), teachers implementing a unit designed around mathematical…

A Design Based Research of an Earth Systems Based Environmental Curriculum

ERIC Educational Resources Information Center

Assaraf, Orit Ben-Zvi; Orion, Nir

2009-01-01

This article presents a model for the development of an environmentally oriented unit designed to be implemented as an integral part of the science core curriculum. The program's main goal is encouraging students at the junior high-school level to develop systems-thinking and environmental insight as a basis for environmental literacy. A…

Curriculum Development for Quantitative Skills in Degree Programs: A Cross-Institutional Study Situated in the Life Sciences

ERIC Educational Resources Information Center

Matthews, Kelly E.; Belward, Shaun; Coady, Carmel; Rylands, Leanne; Simbag, Vilma

2016-01-01

Higher education policies are increasingly focused on graduate learning outcomes, which infer an emphasis on, and deep understanding of, curriculum development across degree programs. As disciplinary influences are known to shape teaching and learning activities, research situated in disciplinary contexts is useful to further an understanding of…

Chemical Operations Technology Curriculum Development Project. PY95 Final Detailed Report.

ERIC Educational Resources Information Center

Texas State Technical Coll., Marshall.

A model curriculum for an associate of applied science degree in chemical operations technology (COT) was developed at Texas State Technical College in Marshall, Texas. First, a comprehensive analysis of the local and statewide labor market demand for trained personnel in the advanced field of COT was conducted. Next, a comprehensive task analysis…

New Science Curriculum Based on Inquiry Based Learning--A Model of Modern Educational System in Republic of Macedonia

ERIC Educational Resources Information Center

Aceska, Natalija

2016-01-01

The process of globalization, more progressive development of the scientific findings, new technology and the way of communicating with the new forms of literacy in which the most secure spot has been taken by the development of natural sciences in the spirit of "sustainable development" have been the reasons that make science and…

The Impact of Science Integrated Curriculum Supplements on Early Childhood Teachers' Attitudes and Beliefs towards Science while In-Service: A Multiple Case

NASA Astrophysics Data System (ADS)

Collins, Kellian L.

Science at the early childhood level has been rarely taught as a single subject or integrated into the curriculum. One reason why early childhood educators avoid teaching science are their attitudes, beliefs, and lack of understanding scientific concepts as presented in traditional science curriculums. The intervention used by researchers for improving beliefs and attitudes in K-6 pre-service teachers towards teaching science in early childhood has been science method courses. For in service teachers, the intervention has been professional development workshops, seminars, and symposiums. Though these interventions have had a positive impact on teachers' attitudes and beliefs toward teaching science, the interventions have not necessarily guaranteed more science being taught in the preschool classroom. The specific problem investigated for this study was how to improve the interventions designed to improve preschool teachers' attitudes and beliefs so that they would feel more confident in teaching science to young children. The purpose of this study was to examine how implementing a one-week science integrated curriculum supplement could be an effective tool for improving preschool teachers' attitudes and beliefs toward teaching science. This study utilized the qualitative multiple case study research method. A logical model was created based on negative teacher attitudes and beliefs attributes that were the core components of the Preschool Teachers' Attitudes and Beliefs toward Science teaching (P-TABS) questionnaire. The negative attributes were paired with positive interventions and encapsulated in a one-week science integrated curriculum supplement based on the factors of teacher comfort, child benefit and challenges. The primary source of evidence for this study was the semi-structured interview. The researcher contacted 24 early childhood facilities, 44 emails were sent to preschool teachers, four teachers agreed to participate in the study. The results of the study showed that the teachers responded positively to the one-week science integrated curriculum supplement interventions. The researcher recommends eliminating the distinction between the intervention and the outcome via research methods that lead to desired outcomes, moving towards greater integration of subject domains through the pedagogical approach of dialogic reading and kinesthetic intelligence and the production of children's picture books written with purposeful academic intent.

Climate Literacy: Supporting Teacher Professional Development

NASA Astrophysics Data System (ADS)

Haddad, N.; Ledley, T. S.; Dunlap, C.; Bardar, E.; Youngman, B.; Ellins, K. K.; McNeal, K. S.; Libarkin, J.

2012-12-01

Confronting the Challenges of Climate Literacy (CCCL) is an NSF-funded (DRK-12) project that includes curriculum development, teacher professional development, teacher leadership development, and research on student learning, all directed at high school teachers and students. The project's evaluation efforts inform and guide all major components of the project. The research effort addresses the question of what interventions are most effective in helping high school students grasp the complexities of the Earth system and climate processes, which occur over a range of spatial and temporal scales. The curriculum unit includes three distinct but related modules: Climate and the Cryosphere; Climate, Weather, and the Biosphere; and Climate and the Carbon Cycle. Climate-related themes that cut across all three modules include the Earth system, with the complexities of its positive and negative feedback loops; the range of temporal and spatial scales at which climate, weather, and other Earth system processes occur; and the recurring question, "How do we know what we know about Earth's past and present climate?" which addresses proxy data and scientific instrumentation. The professional development component of the project includes online science resources to support the teaching of the curriculum modules, summer workshops for high school teachers, and a support system for developing the teacher leaders who plan and implement those summer workshops. When completed, the project will provide a model high school curriculum with online support for implementing teachers and a cadre of leaders who can continue to introduce new teachers to the resource. This presentation will introduce the curriculum and the university partnerships that are key to the project's success, and describe how the project addresses the challenge of helping teachers develop their understanding of climate science and their ability to convey climate-related concepts articulated in the Next Generation Science Standards to their students. We will also describe the professional development and support system to develop teacher leaders and explain some of the challenges that accompany this approach of developing teacher leaders in the area of climate literacy.

Library Instruction within the Curriculum--The Sciences, Business and Nursing. Projects Developed for a Faculty Development Seminar (Eau Claire, Wisconsin, May 21-22, August 19, and December 11, 1984).

ERIC Educational Resources Information Center

Stevens, Barbara R., Comp.; Engeldinger, Eugene A., Comp.

A general list of suggestions for effective library instruction and library instruction projects in a variety of disciplines are presented in this guide. Developed for a faculty and academic staff development seminar, the Library Instruction within the Curriculum Project, these projects illustrate diverse approaches to library instruction with the…

Leading Change in the Primary Science Curriculum

ERIC Educational Resources Information Center

Waller, Nicky; Baker, Chris

2014-01-01

Nicky Waller and Chris Baker believe that change can be a good thing and explain how their training has helped others to adjust to the new science curriculum. In September 2013, teachers across England received the definitive version of the new primary curriculum "Leading Change in the Primary Science Curriculum." This course aimed to…

Nanomedicine concepts in the general medical curriculum: initiating a discussion

PubMed Central

Sweeney, Aldrin E

2015-01-01

Various applications of nanoscale science to the field of medicine have resulted in the ongoing development of the subfield of nanomedicine. Within the past several years, there has been a concurrent proliferation of academic journals, textbooks, and other professional literature addressing fundamental basic science research and seminal clinical developments in nanomedicine. Additionally, there is now broad consensus among medical researchers and practitioners that along with personalized medicine and regenerative medicine, nanomedicine is likely to revolutionize our definitions of what constitutes human disease and its treatment. In light of these developments, incorporation of key nanomedicine concepts into the general medical curriculum ought to be considered. Here, I offer for consideration five key nanomedicine concepts, along with suggestions regarding the manner in which they might be incorporated effectively into the general medical curriculum. Related curricular issues and implications for medical education also are presented. PMID:26677322

A Trial for Curriculum Development: The Effect of Educational Philosophy Curriculum on the Attitudes Towards Course and Educational Views

ERIC Educational Resources Information Center

Kumral, Orhan

2016-01-01

In Turkey, Educational Philosophy is a compulsory course for the students of education faculties, which serve the purpose of training the teachers of future generations. Furthermore, in some other programs, students are able to take the course as an elective course. The continuous changes in culture, science, and technology force the curriculum of…

The evolution of science literacy: Examining intertextual connections and inquiry behaviors in the classroom

NASA Astrophysics Data System (ADS)

Manocchi-Verrino, Carol J.

A call for a new perspective of science literacy has been marked as the impetus of change in science education, suggesting that a meaning-making approach to literacy and inquiry are central to learning science. This research study explored how science literacy evolved in a classroom where this reconceptualized view of science literacy guided curriculum design and instruction. The teacher/researcher incorporated Interactive Science Notebooks (ISNs) and Interactive Reading Organizers and Comprehension Strategies (IROCS) into instructional materials. In a class consisting of 20 mainstream and special education students, this 7-week study collected data using Likert scales, stimulated recall interviews, a teacher/researcher journal, and students¡¦ position papers. A systematic design framework was used for the three-phase analysis. Hyperresearch RTM software facilitated the identification of open codes, an axial code, and frequency graphs. In order to develop insight into the relationship between questions, methods, and curriculum design recent recommendations for quality research in science education were considered in the methodology. The hypothesis formulated from the data suggests that science literacy evolves on a continuum, and the degree to which science literacy evolves on the continuum seems to be contingent upon their uses of intertextual connections and inquiry behaviors. Several notable insights emerged from the data which were used to guide curriculum, instruction, and assessment that promotes the development of science literacy in the middle school classroom. The study suggests a possible correlation between the use of intertextual connections and inquiry behaviors, and the use of a continuum in measuring the emergence of science literacy.

Professional development that works: Impacting elementary science teachers' learning and practice during the implementation of an inquiry-oriented science curriculum

NASA Astrophysics Data System (ADS)

Schlang, Jodi A.

One of the most important factors for developing science literacy for all students is teacher knowledge of science content and pedagogy. This study was designed to evaluate the impact of professional development on teacher learning, changes in teacher behavior, and student learning. The goal was to develop a deeper understanding of how the Elementary Science Teaching and Learning (ESTL) program affected teacher learning and changed teacher behavior in the classroom. This study also provided insight into the effect of the ESTL program on student learning during the first year of the professional development. This mixed method case study was used to examine the link between participation in the ESTL program, teacher learning, changes in teacher classroom behavior, and student learning. Qualitative observations and videotaped sessions provided rich description of the professional development and implementation of inquiry-oriented strategies in participant's classrooms. Artifacts and interviews provided evidence of teacher learning and changes in teacher behaviors. Quantitative data included self-report survey data examining changes in teacher behavior and the measurement of student learning used both science district assessment scores and CSAP writing scores. Key findings include: (1) teacher learning was reported in the areas of questioning and scope and sequence of the curriculum occurred; (2) statistically significant changes teacher behavior were reported and were noted in teacher interviews; (3) participation in the ESTL program did not positively impact student learning; (4) unanticipated findings include the role of camaraderie in professional development and the role of additional training in teacher's confidence in both their own teaching and in helping others; and, (5) teacher's perceptions identified the role of inquiry-based science curriculum as providing the rich experiences necessary for improved student writing. Overall participation in the ESTL program increased the implementation of inquiry-oriented strategies and it strengthened teacher inquiry-based science teaching in the classroom even though no increases were found in student test scores.

Earth Science for Educators: Preparing 7-12 Teachers for Standards-based, Inquiry Instruction

NASA Astrophysics Data System (ADS)

Sloan, H.

2002-05-01

"Earth Science for Educators" is an innovative, standards-based, graduate level teacher education curriculum that presents science content and pedagogic technique in parallel. The curriculum calls upon the resources and expertise of the American Museum of Natural History (AMNH) to prepare novice New York City teachers for teaching Earth Science. One of the goals of teacher education is to assure and facilitate science education reform through preparation of K-12 teachers who understand and are able to implement standard-based instruction. Standards reflect not only the content knowledge students are expected to attain but also the science skills and dispositions towards science they are expected to develop. Melding a list of standards with a curriculum outline to create inquiry-based classroom instruction that reaches a very diverse population of learners is extremely challenging. "Earth Science for Educators" helps novice teachers make the link between standards and practice by constantly connecting standards with instruction they receive and activities they carry out. Development of critical thinking and enthusiasm for inquiry is encouraged through engaging experience and contact with scientists and their work. Teachers are taught Earth systems science content through modeling of a wide variety of instruction and assessment methods based upon authentic scientific inquiry and aimed at different learning styles. Use of fieldwork and informal settings, such as the Museum, familiarizes novice teachers with ways of drawing on community resources for content and instructional settings. Metacognitive reflection that articulates standards, practice, and the teachers' own learning experience help draw out teachers' insights into their students' learning. The innovation of bring science content together with teaching methods is key to preparing teachers for standards-based, inquiry instruction. This curriculum was successfully piloted with a group of 28 novice teachers as part of the AMNH-City University of New York partnership and the CUNY Teaching Opportunity Program Scholarship. Reactions and feedback from program coordinators and teachers have been extremely positive during the year and a half since its implementation.

Building Astronomy Curriculum to Include the Sight Impaired: Week long summer camp activities for Middle School Students adherent to Washington State Curriculum Standards (EALR's)

NASA Astrophysics Data System (ADS)

Ramien, Natalie; Loebman, S. R.; Player, V.; Larson, A.; Torcolini, N. B.; Traverse, A.

2011-01-01

Currently astronomy learning is heavily geared towards visual aids; however, roughly 10 million people in North America are sight impaired. Every student should have access to meaningful astronomy curriculum; an understanding of astronomy is an expectation of national and state science learning requirements. Over the last ten years, Noreen Grice has developed Braille and large print astronomy text books aimed at sight impaired learners. We build upon Grice's written work and present here a five day lesson plan that integrates 2D reading with 3D activities. Through this curriculum, students develop an intuitive understanding of astronomical distance, size, composition and lifetimes. We present five distinct lesson modules that can be taught individually or in a sequential form: the planets, our sun, stars, stellar evolution and galaxies. We have tested these modules on sight impaired students and report the results here. Overall, we find the work presented here lends itself equally well to a week long science camp geared toward middle school sight impaired taught by astronomers or as supplemental material integrated into a regular classroom science curriculum. This work was made possible by a 2007 Simple Effective Education and Dissemination (SEED) Grant For Astronomy Researchers, Astronomical Society of the Pacific through funds provided by the Planck Mission, Jet Propulsion Laboratory, California Institute of Technology.

From Prescribed Curriculum to Classroom Practice: An Examination of the Implementation of the New York State Earth Science Standards

ERIC Educational Resources Information Center

Contino, Julie; Anderson, O. Roger

2013-01-01

In New York State (NYS), Earth science teachers use the "National Science Education Standards" (NSES), the NYS "Learning Standards for Mathematics, Science and Technology" (NYS Standards), and the "Physical Setting/Earth Science Core Curriculum" (Core Curriculum) to create local curricula and daily lessons. In this…

A Comparison of Biologic Content in Three Elementary-School Science Curriculum Projects: ESS, S-APA, SCIS

ERIC Educational Resources Information Center

Simpson, Ronald D.

1974-01-01

Three elementary school science curriculum projects, Elementary Science Study (ESS), Science - A Process Approach (S-APA), and Science Curriculum Improvement Study (SCIS), are compared concerning the biologic content each project contains. The reviewer found a lack of activities designed to represent functions at the cellular level. Two projects…

Art, Chaos, Ethics, and Science (ACES): a doctoring curriculum for emergency medicine.

PubMed

Van Groenou, Aneema A; Bakes, Katherine Mary

2006-11-01

ACES (Art, Chaos, Ethics, and Science) is a curriculum developed by 2 residents and a faculty mentor at the Denver Health Medical Center Emergency Medicine Residency Program. The goal of the ACES curriculum is 2-fold: (1) to discuss areas of clinical consequence typically outside the scope of the regular academic curriculum, such as ethical dilemmas and the challenges of professionalism; and (2) to encourage reflection on our roles as caregivers on a personal, public health, and political level. Each bimonthly "doctoring roundtable" session focuses on one of these goals, bringing local and national leaders in the field to the forum to enrich discussion. Attending physicians from academic and private settings within the residency, residents at all levels, rotating medical students, and, for the past year, emergency department nurses participate in the meetings. Thus far, regular voluntary participation has been the only measure of the ongoing program's success. In this descriptive article, we discuss the aim of the program, the curriculum, and how the ACES program enriches the residency's educational goals. Recent accreditation requirements for residency training programs mandate educational experiences that allow residents to demonstrate competency in professionalism and ethical principles. The ACES curriculum developed a unique niche in our residency, creating an open forum for passionate discussion of challenging clinical encounters, unpressured reflection on ethics and decisionmaking, and constructive personal and professional development.

The Next Generation Science Standards: A Focus on Physical Science

ERIC Educational Resources Information Center

Krajcik, Joe

2013-01-01

This article describes ways to adapt U.S. science curriculum to the U.S. National Research Council (NRC) "Framework for K-12 Science Education" and "Next Generation of Science Standards" (NGSS), noting their focus on teaching the physical sciences. The overall goal of the Framework and NGSS is to help all learners develop the…

Herbert Spencer: Victorian Curriculum Theorist.

ERIC Educational Resources Information Center

Banks, P.

1980-01-01

Assesses the importance of the English philosopher Herbert Spencer (1820-1903) for curriculum development. His main contribution was arguing forcefully in favor of science in the controversy between classical and scientific education in Victorian England. Summarizes the main principles of Spencer's theory of knowledge, examines their application…

Into the Curriculum.

ERIC Educational Resources Information Center

School Library Media Activities Monthly, 1992

1992-01-01

Provides six fully developed library media activities that are designed to be used with specific curriculum units. Highlights include elementary student activities for art (winter holiday crafts); reading/language arts (fantasy in stories, elements of folk stories from India, writing sequels to fairy tales); science (animal symbiosis); and social…

Bringing Data Science, Xinformatics and Semantic eScience into the Graduate Curriculum

NASA Astrophysics Data System (ADS)

Fox, P.

2012-04-01

Recent advances in acquisition techniques quickly provide massive amount of complex data characterized by source heterogeneity, multiple modalities, high volume, high dimensionality, and multiple scales (temporal, spatial, and function). In turn, science and engineering disciplines are rapidly becoming more and more data driven with goals of higher sample throughput, better understanding/modeling of complex systems and their dynamics, and ultimately engineering products for practical applications. However, analyzing libraries of complex data requires managing its complexity and integrating the information and knowledge across multiple scales over different disciplines. Attention to Data Science is now ubiquitous - The Fourth Paradigm publication, Nature and Science special issues on Data, and explicit emphasis on Data in national and international agency programs, foundations (Keck, Moore) and corporations (IBM, GE, Microsoft, etc.). Surrounding this attention is a proliferation of studies, reports, conferences and workshops on Data, Data Science and workforce. Examples include: "Train a new generation of data scientists, and broaden public understanding" from an EU Expert Group, "…the nation faces a critical need for a competent and creative workforce in science, technology, engineering and mathematics (STEM)...", "We note two possible approaches to addressing the challenge of this transformation: revolutionary (paradigmatic shifts and systemic structural reform) and evolutionary (such as adding data mining courses to computational science education or simply transferring textbook organized content into digital textbooks).", and "The training programs that NSF establishes around such a data infrastructure initiative will create a new generation of data scientists, data curators, and data archivists that is equipped to meet the challenges and jobs of the future." Further, interim report of the International Council for Science's (ICSU) Strategic Coordinating Committee on Information and Data (SCCID), features this excerpt from section 4.2.4 Data scientists and professionals: "An unfortunate state in the recognition of data science, is that there is a lack of appreciation of the need for a set of professional knowledge in skill in key areas, many of which have not been emphasized to date, e.g. professional approaches to the management of data over its lifecycle. As such, the effort required to be a data scientists is not valued sufficiently by the remainder of the scientific community." SCCID Recommendation 6 reads: "We recommend the development of education at university level in the new and vital field of data science. The curriculum included in appendix D can be used as a starting point for curriculum development. Appendix D. is entitled "Example curriculum for data science" and explicitly uses the "Curriculum for Data Science taught at Rensselaer Polytechnic Institute, USA" . This contribution will present relevant curriculum offerings at the Rensselaer Polytechnic Institute. http://tw.rpi.edu/web/Courses

Uncovering Portuguese Teachers' Difficulties in Implementing Sciences Curriculum

ERIC Educational Resources Information Center

Vasconcelos, Clara; Torres, Joana; Moutinho, Sara; Martins, Idalina; Costa, Nilza

2015-01-01

Many countries recognize the positive and effective results of improving science education through the introduction of reforms in the sciences curriculum. However, some important issues are generally neglected like, for example, the involvement of the teachers in the reform process. Taking the sciences curriculum reform under analysis and…

Pacific Elementary Science: A Case Study of Educational Planning for Small Developing Nations.

ERIC Educational Resources Information Center

Taylor, Neil; Vlaardingerbroek, Barand

2000-01-01

Evaluates Science Education in Pacific Schools (SEPS), a project addressing science-education deficiencies in 12 small Pacific Island countries. The assessment revealed inadequate, outdated, and unattractive science teaching resources in some countries; badly sequenced and duplicative curriculum projects across the region; and lack of teacher…

Guide to Science Fiction: Exploring Possibilities and Alternatives.

ERIC Educational Resources Information Center

Paine, Doris M.; Martinez, Diana

Designed to help teachers develop science fiction materials, this guide provides references to useful books, examples of various teaching techniques, motivation techniques, evaluation methods, and a rationale for the importance of science fiction in the secondary curriculum. Using science fiction themes along with special techniques, a teacher can…

Connecting Science and Mathematics: The Nature of Proof and Disproof in Science and Mathematics

ERIC Educational Resources Information Center

Oehrtman, Michael; Lawson, Anton E.

2008-01-01

Disagreements exist among textbook authors, curriculum developers, and even among science and mathematics educators/researchers regarding the meanings and roles of several key nature-of-science (NOS) and nature-of-mathematics (NOM) terms such as proof, disproof, hypotheses, predictions, theories, laws, conjectures, axioms, theorems, and…

Descriptive Analysis of the Graphic Representations of Science Textbooks

ERIC Educational Resources Information Center

Khine, Myint Swe; Liu, Yang

2017-01-01

Textbooks are primary teaching aids, sources from which students obtain knowledge of science domain. Due to this fact, curriculum developers in the field emphasize the crucial role of analysing the contents of science textbooks in improving science education. Scientific domain knowledge relies on graphical representations for the manifestation of…

Approaches and Strategies in Next Generation Science Learning

ERIC Educational Resources Information Center

Khine, Myint Swe, Ed.; Saleh, Issa M., Ed.

2013-01-01

"Approaches and Strategies in Next Generation Science Learning" examines the challenges involved in the development of modern curriculum models, teaching strategies, and assessments in science education in order to prepare future students in the 21st century economies. This comprehensive collection of research brings together science educators,…

Models and Materials: Bridging Art and Science in the Secondary Curriculum

NASA Astrophysics Data System (ADS)

Pak, D.; Cavazos, L.

2006-12-01

Creating and sustaining student engagement in science is one challenge facing secondary teachers. The visual arts provide an alternative means of communicating scientific concepts to students who may not respond to traditional formats or identify themselves as interested in science. We have initiated a three-year teacher professional development program at U C Santa Barbara focused on bridging art and science in secondary curricula, to engage students underrepresented in science majors, including girls, English language learners and non-traditional learners. The three-year format provides the teams of teachers with the time and resources necessary to create innovative learning experiences for students that will enhance their understanding of both art and science content. Models and Materials brings together ten secondary art and science teachers from six Santa Barbara County schools. Of the five participating science teachers, three teach Earth Science and two teach Life Science. Art and science teachers from each school are teamed and challenged with the task of creating integrated curriculum projects that bring visual art concepts to the science classroom and science concepts to the art classroom. Models and Materials were selected as unifying themes; understanding the concept of models, their development and limitations, is a prominent goal in the California State Science and Art Standards. Similarly, the relationship between composition, structure and properties of materials is important to both art and science learning. The program began with a 2-week institute designed to highlight the natural links between art and science through presentations and activities by both artists and scientists, to inspire teachers to develop new ways to present models in their classrooms, and for the teacher teams to brainstorm ideas for curriculum projects. During the current school year, teachers will begin to integrate science and art and the themes of modeling and materials into their classrooms. Initial results indicate that the participating teachers developed a clearer understanding of the uses and limitations of models the classroom, better understanding of materials science, and strong initial ideas for integrated curricula.

Fostering pre-service teachers' views about nature of science: evaluation of a new STEM curriculum

NASA Astrophysics Data System (ADS)

Krell, Moritz; Koska, Johannes; Penning, Fenna; Krüger, Dirk

2015-09-01

Background: An elaborated understanding of Nature of Science (NOS) is seen as an important part of scientific literacy. In order to enable teachers to adequately discuss NOS in their lessons, various approaches have recently been employed to improve teachers' understanding of NOS. Purpose: This study investigated the effect of participating in a newly developed Science, Technology, Engineering and Mathematics (STEM) curriculum at the Freie Universität Berlin (Germany) on pre-service teachers' NOS views. Program description: In the new STEM curriculum, two versions of explicitly teaching NOS, which are discussed in the literature, have been adopted: the pre-service teachers explicitly reflect upon nature and history of science (version one) as well as conduct own scientific investigations (version two). Sample: N = 76 pre-service teachers from different semester levels (cross-sectional study) who participated in the new STEM curriculum took part in this study (intervention group). As control groups, students who did not partake in the new curriculum participated (pre-service primary (N = 134), science (N = 198), and no-science (N = 161) teachers). Design and methods: In order to allow an economic assessment, a testing instrument with closed-item formats was developed to assess the respondents' views about six NOS aspects. Results: The intervention group shows significantly more elaborated NOS views than a relevant control group (p < .01, g = .48). Additionally, a one-way ANOVA reveals a positive effect of semester level on NOS views for the intervention group (p < .01; η² = .16) but not for the control groups. Conclusion: The findings support evidence suggesting that explicit approaches are effective when fostering an informed understanding of NOS. More specifically, a sequence of both versions of explicitly teaching NOS discussed in the literature seems to be a way to successfully promote pre-service teachers' NOS understanding.

The Effect of Guided-Inquiry Instruction on 6th Grade Turkish Students' Achievement, Science Process Skills, and Attitudes toward Science

ERIC Educational Resources Information Center

Koksal, Ela Ayse; Berberoglu, Giray

2014-01-01

The purpose of this study is to investigate the effectiveness of guided-inquiry approach in science classes over existing science and technology curriculum in developing content-based science achievement, science process skills, and attitude toward science of grade level 6 students in Turkey. Non-equivalent control group quasi-experimental design…

Preservice Science Teachers' Perceptions of Their TPACK Development after Creating Digital Stories

ERIC Educational Resources Information Center

Sancar-Tokmak, Hatice; Surmeli, Hikmet; Ozgelen, Sinan

2014-01-01

The aim of this case study was to examine pre-service science teachers' (PSTs) perceptions of their Technological Pedagogical Content Knowledge (TPACK) development after creating digital stories based on science topics drawn from the national curriculum. A total of 21 PSTs enrolled in Introduction to Computers II participated in the study. Data…

Urban High School Students' Critical Science Agency: Conceptual Understandings and Environmental Actions around Climate Change

ERIC Educational Resources Information Center

McNeill, Katherine L.; Vaughn, Meredith Houle

2012-01-01

This study investigates how the enactment of a climate change curriculum supports students' development of critical science agency, which includes students developing deep understandings of science concepts and the ability to take action at the individual and community levels. We examined the impact of a four to six week urban ecology curriculum…

Developing Practical Knowledge of the "Next Generation Science Standards" in Elementary Science Teacher Education

ERIC Educational Resources Information Center

Hanuscin, Deborah L.; Zangori, Laura

2016-01-01

Just as the "Next Generation Science Standards" (NGSSs) call for change in what students learn and how they are taught, teacher education programs must reconsider courses and curriculum in order to prepare teacher candidates to understand and implement new standards. In this study, we examine the development of prospective elementary…

An Approach toward the Development of Core Syllabuses for the Anatomical Sciences

ERIC Educational Resources Information Center

Moxham, Bernard John; Plaisant, Odile; Smith, Claire F.; Pawlina, Wojciech; McHanwell, Stephen

2014-01-01

There is increasingly a call for clinical relevance in the teaching of the biomedical sciences within all health care programs. This presupposes that there is an understanding of what is "core" material within the curriculum. To date, the anatomical sciences have been poorly served by the development of core syllabuses, although there…

Teachers' Sensemaking about Implementation of an Innovative Science Curriculum across the Settings of Professional Development and Classroom Enactment

ERIC Educational Resources Information Center

de los Santos, Xeng

2017-01-01

Designing professional development that effectively supports teachers in learning new and often challenging practices remains a dilemma for teacher educators. Within the context of current reform efforts in science education, such as the "Next Generation Science Standards," teacher educators are faced with managing the dilemma of how to…

A Phenomenological Examination of Perceived Skills and Concepts Necessary for Teaching Scientific Thinking

NASA Astrophysics Data System (ADS)

Kapetanis, Ana Cristina

The use of high stakes testing to improve educational outcomes falls short in many settings. Proposals for improvement include providing more opportunities for students to extend their thinking, gaining experience in the social nature of science, and learning how to interpret, explain, and justify results. This phenomenological qualitative project study took place in a small independent school in the southeastern United States that lacked a cohesive elementary science program and was looking to create a vertically aligned science curriculum based on constructivism. The research question asked what skills and concepts teachers believed should be included in an elementary science program in order for students to learn scientific inquiry to be better prepared for middle and upper school science subjects. Using focus groups, observations, and interviews of a small sample of 4 teachers, data were collected, transcribed, and categorized through open coding. Inductive analysis was employed to look for patterns and emerging themes that painted a picture of how teachers viewed the current science program and what attributes they felt were important in the creation of a new curriculum. The findings revealed that teachers felt there was lack of a vertically aligned science curriculum, availability of resources throughout the school, and consistent support to provide an effective science program. The recommendations called for developing an elementary science program that includes all strands proposed by the National Science Education Standards and would provide students with opportunities to engage in scientific inquiry, conduct detailed observations, and learn to support conclusions using data. The implications for positive social change include development of programs that result in integrated science learning.

Planetary Science Educational Materials for Out-of-School Time Educators

NASA Astrophysics Data System (ADS)

Barlow, Nadine G.; Clark, Joelle G.

2017-10-01

Planetary Learning that Advances the Nexus of Engineering, Technology, and Science (PLANETS) is a five-year NASA-funded (NNX16AC53A) interdisciplinary and cross-institutional partnership to develop and disseminate STEM out-of-school time (OST) curricular and professional development units that integrate planetary science, technology, and engineering. The Center for Science Teaching and Learning (CSTL) and Department of Physics and Astronomy (P&A) at Northern Arizona University, the U.S. Geological Survey Astrogeology Science Center (USGS ASC), and the Museum of Science Boston (MoS) are partners in developing, piloting, and researching the impact of three out-of-school time units. Planetary scientists at USGS ASC and P&A have developed two units for middle grades youth and one for upper elementary aged youth. The two middle school units focus on greywater recycling and remote sensing of planetary surfaces while the elementary unit centers on exploring space hazards. All units are designed for small teams of ~4 youth to work together to investigate materials, engineer tools to assist in the explorations, and utilize what they have learned to solve a problem. Youth participate in a final share-out with adults and other youth of what they learned and their solution to the problem. Curriculum pilot testing of the two middle school units has begun with out-of-school time educators. A needs assessment has been conducted nationwide among educators and evaluation of the curriculum units is being conducted by CSTL during the pilot testing. Based on data analysis, the project is developing and testing four tiers of professional support for OST educators. Tier 1 meets the immediate needs of OST educators to teach curriculum and include how-to videos and other direct support materials. Tier 2 provides additional content and pedagogical knowledge and includes short content videos designed to specifically address the content of the curriculum. Tier 3 elaborates on best practices in education and gives guidance on methods, for example, to develop cultural relevancy for underrepresented students. Tier 4 helps make connections to other NASA or educational products that support STEM learning in out of school settings.

A Model for Facilitating Curriculum Development in Higher Education: A Faculty-Driven, Data-Informed, and Educational Developer-Supported Approach

ERIC Educational Resources Information Center

Wolf, Peter

2007-01-01

In the fall of 2003, Teaching Support Services (TSS), a department at the University of Guelph, was approached by a faculty member in the department of food sciences. Professor Art Hill was interested in seeking support in systematically assessing the department's undergraduate curriculum and using that assessment to trigger further improvement of…

Culturally responsive middle school science: A case study of needs, demands, and challenges

NASA Astrophysics Data System (ADS)

Woodrow, Kelli Ellen

2007-12-01

Culturally responsive programming has been proposed as a remedy for the well-documented disconnect between schools and the ethnically and culturally diverse students who attend them. These programs often focus on creating instructional materials and pedagogical practices that are aligned with the knowledges, perspectives and practices of these students. This study builds on that literature and examines the needs, demands, and challenges of developing a culturally responsive health science program for ethnically and culturally diverse urban middle school students. I approached this problem through a content analysis of the intended curriculum and a microethnography of the enacted curriculum. In my analysis of the intended curriculum, I adapted a science textbook analysis instrument created by the American Association for the Advancement of Science (AAAS) to include criteria related to identified features of culturally responsive education. Using these modified analytic criteria, I found that the pilot drafts of the curricular materials excelled in the areas of engaging students in relevant phenomenon but lacked many of these specifically culturally responsive elements. Recommendations were made to redress these deficiencies. In my analysis of the enacted curriculum, I observed in five eighth grade classrooms where the program was being implemented. I used participant observation, audio and video tape recordings, artifacts, and interviews over a six-month period to investigate teacher/student interactions, the social organization of the classrooms, and students' culturally distinctive knowledge resources---or what is sometimes referred to as their "funds of knowledge." I found that the affective interactions between teachers and students were precursors to any reform, and that students and teachers similarly defined these interactions as "teacher care." In addition, I found that the social organization of the classroom often privileged official content and ways of knowing while limiting students' ability to publicly draw on their unique funds of knowledge or to access their scientific sensemaking resources. Through the use of data accumulated from my curriculum analysis and classroom observations, I concluded that culturally responsive program development must incorporate both curricular development and inservice professional development focused not only on science but also on fundamental aspects of classroom interactions.

A Radiation Laboratory Curriculum Development at Western Kentucky University

NASA Astrophysics Data System (ADS)

Barzilov, Alexander P.; Novikov, Ivan S.; Womble, Phil C.

2009-03-01

We present the latest developments for the radiation laboratory curriculum at the Department of Physics and Astronomy of Western Kentucky University. During the last decade, the Applied Physics Institute (API) at WKU accumulated various equipment for radiation experimentation. This includes various neutron sources (computer controlled d-t and d-d neutron generators, and isotopic 252 Cf and PuBe sources), the set of gamma sources with various intensities, gamma detectors with various energy resolutions (NaI, BGO, GSO, LaBr and HPGe) and the 2.5-MeV Van de Graaff particle accelerator. XRF and XRD apparatuses are also available for students and members at the API. This equipment is currently used in numerous scientific and teaching activities. Members of the API also developed a set of laboratory activities for undergraduate students taking classes from the physics curriculum (Nuclear Physics, Atomic Physics, and Radiation Biophysics). Our goal is to develop a set of radiation laboratories, which will strengthen the curriculum of physics, chemistry, geology, biology, and environmental science at WKU. The teaching and research activities are integrated into real-world projects and hands-on activities to engage students. The proposed experiments and their relevance to the modern status of physical science are discussed.

The Social Sciences in the Schools: Purpose, Trends, Activities.

ERIC Educational Resources Information Center

Risinger, C. Frederick, Ed.; Beversdorf, Anne, Ed.

Twenty-six social studies educators participated in a conference at Indiana University, Bloomington, Indiana, in summer 1978 to ascertain the status and goals of social studies education. Specifically, conference participants examined recent social science research, explored curriculum development, and developed social studies classroom…

Beyond Homework: Science and Mathematics Backpacks.

ERIC Educational Resources Information Center

Kokoski, Teresa M.; Patton, Mary Martin

1997-01-01

Describes classroom-developed science and mathematics backpacks, self-contained educational packets developed around a theme or concept and designed to be completed at home. Presents generalized contents, a sample backpack on colors, and the backpack's advantages, including promotion of active learning, family involvement, curriculum integration,…

Enviro-Lab Takes to the Waves.

ERIC Educational Resources Information Center

Scott, David R.

1980-01-01

Project Oceanology, in Groton, CT, is a program concerning marine education. Objectives are listed as emphasizing potential and importance of Long Island Sound, development of marine science curriculum in biology, physical science and chemistry, training teachers to use materials and equipment, and developing liaisons between participating schools…

THE HUMANITIES AND THE CURRICULUM.

ERIC Educational Resources Information Center

BERMAN, LOUISE M.

THIS BOOKLET CONTAINS THE MAJOR ADDRESSES DELIVERED AT THE DECEMBER 1965 CONFERENCE SPONSORED BY THE ASSOCIATION FOR SUPERVISION AND CURRICULUM DEVELOPMENT OF THE NATIONAL EDUCATION ASSOCIATION. THE PLACE OF THE FINE ARTS, LANGUAGE, LITERATURE, FOREIGN LANGUAGES, AND PHILOSOPHY WITHIN THE HUMANITIES AND THE RELATIONSHIP OF SOCIAL STUDIES, SCIENCE,…

Access Nature[TM]: 45 Fun, Hands-On Activities for Everyone!

ERIC Educational Resources Information Center

Almeras, Bethe Gilbert; Heath, David

"Access Nature" is an outdoor science curriculum that focuses on habitats. This curriculum targets students ages 6-14 and aims to develop environmental awareness, environmental leadership skills, and outdoor knowledge and skills. Specific adaptations for disabled students are also considered. Contents include: (1) "Introduction to…

Project Success for the SLD Child, Curriculum Modification.

ERIC Educational Resources Information Center

Owens, Jean

The curriculum modification guide, developed by project success (Nebraska) through a Title III grant for language disabled elementary level students, contains suggested activities and instructional materials to be used in units of art, health, mathematics, music, science, and social studies. Explained are program planning, criteria for selecting…

Teacher and School Characteristics and Their Influence on Curriculum Implementation

ERIC Educational Resources Information Center

Roehrig, Gillian H.; Kruse, Rebecca A.; Kern, Anne

2007-01-01

Reform-based curriculum materials have been suggested as a mechanism to make inquiry-based instruction more prevalent in secondary science classrooms, specifically when accompanied by comprehensive professional development (Loucks-Horsley, Hewson, Love, & Stiles, [1998]; Powell & Anderson, [2002]). This research examines the implementation of a…

The Astrobiology in Secondary Classrooms (ASC) curriculum: focusing upon diverse students and teachers.

PubMed

Arino de la Rubia, Leigh S

2012-09-01

The Minority Institution Astrobiology Collaborative (MIAC) began working with the NASA Goddard Center for Astrobiology in 2003 to develop curriculum materials for high school chemistry and Earth science classes based on astrobiology concepts. The Astrobiology in Secondary Classrooms (ASC) modules emphasize interdisciplinary connections in astronomy, biology, chemistry, geoscience, physics, mathematics, and ethics through hands-on activities that address national educational standards. Field-testing of the Astrobiology in Secondary Classrooms materials occurred over three years in eight U.S. locations, each with populations that are underrepresented in the career fields of science, technology, engineering, and mathematics. Analysis of the educational research upon the high school students participating in the ASC project showed statistically significant increases in students' perceived knowledge and science reasoning. The curriculum is in its final stages, preparing for review to become a NASA educational product.

Methods of Science Investigation Part 2: Results of Implementation of a Curriculum Fostering Original Scientific Research

NASA Astrophysics Data System (ADS)

Danch, J. M.

2008-12-01

Originally designed to allow secondary students with special needs to participate in original scientific research, the Methods of Science Curriculum was piloted in 2008. Students participating included those with special needs, English language learners, and the general population. Students were incrementally graduated from traditional inquiry activities towards authentic student-generated research projects. Students were evaluated via class work grades, an in-school symposium and a pre/post test. 100 percent of participants successfully completed and presented their original research. The pre/post evaluation demonstrated improvement for 91 percent of participants. An unanticipated result was the performance and growth of English language learners, possibly because of the emphasis on the creative and active process of science rather than vocabulary. A teacher-training program is being developed for expansion of the curriculum to additional schools in 2009.

AIAA Educator Academy - Mars Rover Curriculum: A 6 week multidisciplinary space science based curriculum

NASA Astrophysics Data System (ADS)

Henriquez, E.; Bering, E. A.; Slagle, E.; Nieser, K.; Carlson, C.; Kapral, A.

2013-12-01

The Curiosity mission has captured the imagination of children, as NASA missions have done for decades. The AIAA and the University of Houston have developed a flexible curriculum program that offers children in-depth science and language arts learning culminating in the design and construction of their own model rover. The program is called the Mars Rover Model Celebration. It focuses on students, teachers and parents in grades 3-8. Students learn to research Mars in order to pick a science question about Mars that is of interest to them. They learn principles of spacecraft design in order to build a model of a Mars rover to carry out their mission on the surface of Mars. The model is a mock-up, constructed at a minimal cost from art supplies. This project may be used either informally as an after school club or youth group activity or formally as part of a class studying general science, earth science, solar system astronomy or robotics, or as a multi-disciplinary unit for a gifted and talented program. The project's unique strength lies in engaging students in the process of spacecraft design and interesting them in aerospace engineering careers. The project is aimed at elementary and secondary education. Not only will these students learn about scientific fields relevant to the mission (space science, physics, geology, robotics, and more), they will gain an appreciation for how this knowledge is used to tackle complex problems. The low cost of the event makes it an ideal enrichment vehicle for low income schools. It provides activities that provide professional development to educators, curricular support resources using NASA Science Mission Directorate (SMD) content, and provides family opportunities for involvement in K-12 student learning. This paper will describe the structure and organization of the 6 week curriculum. A set of 30 new 5E lesson plans have been written to support this project as a classroom activity. The challenge of developing interactive learning activities for planetary science will be explored. These lesson plans incorporate state of the art interactive pedagogy and current NASA Planetary Science materials.

How we developed a bioethics theme in an undergraduate medical curriculum.

PubMed

Ghias, Kulsoom; Ali, Syeda Kauser; Khan, Kausar S; Khan, Robyna; Khan, Murad M; Farooqui, Arshi; Nayani, Parvez

2011-01-01

The 5-year undergraduate medical curriculum at Aga Khan University integrates basic sciences with clinical and community health sciences. Multimodal strategies of teaching and learning, with an emphasis on problem-based learning, are utilized to equip students with knowledge, skills, behaviours, attitudes and values necessary for a high-calibre medical graduate. Bioethics teaching was introduced in the medical curriculum in 1988 and has since undergone several changes. In 2009, a multidisciplinary voluntary group began review of undergraduate bioethics teaching and invested over 350 man-hours in curricular revision. This involved formulating terminal objectives, delineating specific objectives and identifying instructional methodologies and assessment strategies appropriate for the contents of each objective. Innovative strategies were specially devised to work within the time constraints of the existing medical curriculum and importantly, to increase student interest and engagement. The new bioethics curriculum is designed to be comprehensive and robust, and strives to develop graduates who, in addition to being technically skilled and competent, are well-versed in the history and philosophy of ethics and bioethics and are ethical in their thinking and practice, especially in the context of a developing country like Pakistan where health indicators are among the worst in the region, and clinical practices are not effectively regulated to ensure quality of care.

Course and Curriculum Improvement Materials: Mathematics, Science, Social Sciences - Elementary, Intermediate, Secondary.

ERIC Educational Resources Information Center

National Science Foundation, Washington, DC.

This is a list of curriculum improvement materials produced by major course and curriculum projects supported by the National Science Foundation's Division of Pre-College Education in Science. The materials are grouped by educational level (elementary, intermediate, and secondary) and within each level by broad discipline groupings (mathematics,…

Primary Science Curriculum Guide, A. Beginning Science.

ERIC Educational Resources Information Center

Victoria Education Dept. (Australia).

Suggestions for providing science experiences for children in kindergarten and grades one and two are given in this first part of the Victorian Education Department (Australia) guide to the elementary school science curriculum. (See SE 012 720 and SE 012 721 for additional guides to this curriculum.) The suggestions are illustrated by brief case…

Teacher perceptions of usefulness of mobile learning devices in rural secondary science classrooms

NASA Astrophysics Data System (ADS)

Tighe, Lisa

The internet and easy accessibility to a wide range of digital content has created the necessity for teachers to embrace and integrate digitial media in their curriculums. Although there is a call for digital media integration in curriculum by current learning standards, rural schools continue to have access to fewer resources due to limited budgets, potentially preventing teachers from having access to the most current technology and science instructional materials. This dissertation identifies the perceptions rural secondary science teachers have on the usefulness of mobile learning devices in the science classroom. The successes and challenges in using mobile learning devices in the secondary classroom were also explored. Throughout this research, teachers generally supported the integration of mobile devices in the classroom, while harboring some concerns relating to student distractability and the time required for integrating mobile devices in exisiting curriculum. Quantitative and qualitative data collected through surveys, interviews, and classroom observations revealed that teachers perceive that mobile devices bring benefits such as ease of communication and easy access to digitial information. However, there are perceived challenges with the ability to effectively communicate complex scientific information via mobile devices, distractibility of students, and the time required to develop effective curriculum to integrate digital media into the secondary science classroom.

Project CUES: A New Middle-School Earth System Science Curriculum Being Developed by the American Geological Institute

NASA Astrophysics Data System (ADS)

Smith, M. C.; Smith, M. J.; Lederman, N.; Southard, J. B.; Rogers, E. A.; Callahan, C. N.

2002-12-01

Project CUES is a middle-school earth systems science curriculum project under development by the American Geological Institute (AGI) and funded by the National Science Foundation (ESI-0095938). CUES features a student-centered, inquiry pedagogy and approaches earth science from a systems perspective. CUES will use the expanded learning cycle approach of Trowbridge and Bybee (1996), known as the 5E model (engage-explore-explain-elaborate-evaluate). Unlike AGI's Investigating Earth Systems (IES) curriculum modules, CUES will include a single hard-bound textbook, and will take one school-year to complete. The textbook includes a prologue that addresses systems concepts and four main units: Geosphere, Hydrosphere, Atmosphere, and Biosphere. Each eight-week unit takes students through a progression from guided inquiry to open-ended, student-driven inquiry. During first 4 to 5 weeks of each unit, students explore important earth science phenomena and concepts through scripted investigations and narrative reading passages written by scientists as "inquiry narratives". The narratives address the development of scientific ideas and relay the personal experiences of a scientist during their scientific exploration. Aspects of the nature of science will be explicitly addressed in investigations and inquiry narratives. After the guided inquiry, students will develop a research proposal and conduct their own inquiry into local or regional scientific problems. Each unit culminates with a science conference at which students present their research. CUES will be the first NSF-funded, comprehensive earth systems textbook for middle school that is based on national standards. CUES will be pilot tested in 12 classrooms in January 2003, with a national field test of the program in 50 classrooms during the 2003-2004 school year.

A Subject Matter Expert View of Curriculum Development.

NASA Astrophysics Data System (ADS)

Milazzo, M. P.; Anderson, R. B.; Edgar, L. A.; Gaither, T. A.; Vaughan, R. G.

2017-12-01

In 2015, NASA selected for funding the PLANETS project: Planetary Learning that Advances the Nexus of Engineering, Technology, and Science. The PLANETS partnership develops planetary science and engineering curricula for out of classroom time (OST) education settings. This partnership is between planetary science Subject Matter Experts (SMEs) at the US Geological Survey (USGS), curriculum developers at the Boston Museum of Science (MOS) Engineering is Everywhere (EiE), science and engineering teacher professional development experts at Northern Arizona University (NAU) Center for Science Teaching and Learning (CSTL), and OST teacher networks across the world. For the 2016 and 2017 Fiscal Years, our focus was on creating science material for two OST modules designed for middle school students. We have begun development of a third module for elementary school students. The first model teaches about the science and engineering of the availability of water in the Solar System, finding accessible water, evaluating it for quality, treating it for impurities, initial use, a cycle of greywater treatment and re-use, and final treatment of blackwater. This module is described in more detail in the abstract by L. Edgar et al., Water in the Solar System: The Development of Science Education Curriculum Focused on Planetary Exploration (233008) The second module involves the science and engineering of remote sensing in planetary exploration. This includes discussion and activities related to the electromagnetic spectrum, spectroscopy and various remote sensing systems and techniques. In these activities and discussions, we include observation and measurement techniques and tools as well as collection and use of specific data of interest to scientists. This module is described in more detail in the abstract by R. Anderson et al., Remote Sensing Mars Landing Sites: An Out-of-School Time Planetary Science Education Activity for Middle School Students (232683) The third module, described by R.G. Vaughan, Hazards in the Solar System: Out-of-School Time Student Activities Focused on Engineering Protective Space Gloves (262143), focuses on hazards in the Solar System and the engineering approach to designing space gloves to protect against those hazards.

A New Approach to Developing Interactive Software Modules Through Graduate Education

NASA Astrophysics Data System (ADS)

Sanders, Nathan E.; Faesi, Chris; Goodman, Alyssa A.

2014-06-01

Educational technology has attained significant importance as a mechanism for supporting experiential learning of science concepts. However, the growth of this mechanism is limited by the significant time and technical expertise needed to develop such products, particularly in specialized fields of science. We sought to test whether interactive, educational, online software modules can be developed effectively by students as a curriculum component of an advanced science course. We discuss a set of 15 such modules developed by Harvard University graduate students to demonstrate various concepts related to astronomy and physics. Their successful development of these modules demonstrates that online software tools for education and outreach on specialized topics can be produced while simultaneously fulfilling project-based learning objectives. We describe a set of technologies suitable for module development and present in detail four examples of modules developed by the students. We offer recommendations for incorporating educational software development within a graduate curriculum and conclude by discussing the relevance of this novel approach to new online learning environments like edX.

A Leadership Model for University Geology Department Teacher Inservice Programs.

ERIC Educational Resources Information Center

Sheldon, Daniel S.; And Others

1983-01-01

Provides geology departments and science educators with a leadership model for developing earth science inservice programs. Model emphasizes cooperation/coordination among departments, science educators, and curriculum specialists at local/intermediate/state levels. Includes rationale for inservice programs and geology department involvement in…

How Singapore Junior College Science Teachers Address Curriculum Reforms: A Theory

ERIC Educational Resources Information Center

Lim, Patrick; Pyvis, David

2012-01-01

Using grounded theory research methodology, a theory was developed to explain how Singapore junior college science teachers implement educational reforms underpinning the key initiatives of the "Thinking Schools, Learning Nation" policy. The theory suggests Singapore junior college science teachers "deal with" implementing…

Research and Teaching: Encouraging Science Communication in an Undergraduate Curriculum Improves Students' Perceptions and Confidence

ERIC Educational Resources Information Center

Train, Tonya Laakko; Miyamoto, Yuko J.

2017-01-01

The ability to effectively communicate science is a skill sought after by graduate and professional schools as well as by employers in science-related fields. Are content-heavy undergraduate science curricula able to incorporate opportunities to develop science communication skills, and is promoting these skills worth the time and effort? The…

The Nation's Report Card Science 2009 State Snapshot Report. DoDEA. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. DoDEA. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

Teachers' Views of the Nature of Science: A Study on Pre-Service Science Teachers in Sabah, Malaysia

ERIC Educational Resources Information Center

Fah, Lay Yoon; Hoon, Khoo Chwee

2011-01-01

Science education in Malaysia nurtures a science and technology culture by focusing on the development of individuals who are competitive, dynamic, robust, resilient and able to master scientific knowledge and technological competency. To this end, the science curriculum in Malaysia gives conscious emphasis to the acquisition of scientific skills…

Behavioral Sciences in Secondary Schools: An Inquiry-Oriented Interdisciplinary Approach to the Human Behavioral Sciences in Social Studies. Professional Education Series.

ERIC Educational Resources Information Center

Anderson, Randall C.

Trends in secondary-level behavioral science curriculum development, informational background, and strategies for teaching behavioral science concepts are provided in this book. Chapters one through three define the behavioral sciences and examine their changing role and status in social studies education. Chapters four through six develop…

Participation in a Multi-Institutional Curriculum Development Project Changed Science Faculty Knowledge and Beliefs about Teaching Science

ERIC Educational Resources Information Center

Donovan, Deborah A.; Borda, Emily J.; Hanley, Daniel M.; Landel, Carolyn C.

2015-01-01

Despite significant pressure to reform science teaching and learning in K12 schools, and a concurrent call to reform undergraduate courses, higher education science content courses have remained relatively static. Higher education science faculty have few opportunities to explore research on how people learn, examine state or national science…

The Nation's Report Card Science 2009 State Snapshot Report. New Hampshire. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 Trial Urban District Snapshot Report. Baltimore City Public Schools. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the National Assessment of Educational Progress (NAEP) science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts…

The Nation's Report Card Science 2009 Trial Urban District Snapshot Report. Boston Public Schools. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the National Assessment of Educational Progress (NAEP) science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts…

The Nation's Report Card Science 2009 Trial Urban District Snapshot Report. Charlotte-Mecklenburg Schools. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the National Assessment of Educational Progress (NAEP) science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts…

The Nation's Report Card Science 2009 Trial Urban District Snapshot Report. Atlanta Public Schools. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the National Assessment of Educational Progress (NAEP) science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts…

The Nation's Report Card Science 2009 Trial Urban District Snapshot Report. Atlanta Public Schools. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the National Assessment of Educational Progress (NAEP) science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts…

The Nation's Report Card Science 2009 Trial Urban District Snapshot Report. Fresno Unified School District. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the National Assessment of Educational Progress (NAEP) science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts…

The Nation's Report Card Science 2009 Trial Urban District Snapshot Report. Cleveland Metropolitan School District. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the National Assessment of Educational Progress (NAEP) science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts…

The Nation's Report Card Science 2009 Trial Urban District Snapshot Report. Detroit Public Schools. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the National Assessment of Educational Progress (NAEP) science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts…

The Nation's Report Card Science 2009 State Snapshot Report. New Mexico. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. New Mexico. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Colorado. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Colorado. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter,…

The Nation's Report Card Science 2009 State Snapshot Report. Hawaii. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Wisconsin. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Ohio. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Florida. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Ohio. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Arizona. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Mississippi. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Alabama. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Michigan. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Arkansas. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Georgia. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Oklahoma. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. New Jersey. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Missouri. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Illinois. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Idaho. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. South Dakota. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Louisiana. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. New Jersey. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Maine. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Wisconsin. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Connecticut. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Montana. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Maryland. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Mississippi. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Maryland. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Tennessee. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Hawaii. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Wyoming. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Minnesota. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. New York. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Louisiana. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Illinois. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Indiana. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Oregon. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Connecticut. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Oregon. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Idaho. Grade 4, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Alabama. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…

The Nation's Report Card Science 2009 State Snapshot Report. Arizona. Grade 8, Public Schools

ERIC Educational Resources Information Center

National Center for Education Statistics, 2011

2011-01-01

Guided by a new framework, the NAEP science assessment was updated in 2009 to keep the content current with key developments in science, curriculum standards, assessments, and research. The 2009 framework organizes science content into three broad content areas. Physical science includes concepts related to properties and changes of matter, forms…