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Author: Keith S. Taber
Publisher: Springer Science & Business Media
ISBN: 904812431X
Category : Science
Languages : en
Pages : 413
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Book Description
Exploring one of the central themes in science education theory, this volume examines how science education can be considered as a scientific activity within a broad post-positivist notion of science. Many students find learning science extremely problematic, whatever level of education they have reached. At the end of the 1970s a new approach to tackling learning difficulties in science was developed, drawing on ideas from psychology and cognitive science, and centred on the way students build up new knowledge in reference to their existing ideas. ‘Constructivism’ became the dominant paradigm in science education research for two decades, spawning a vast body of literature reporting aspects of learners’ ideas in different science topics. However, Constructivism came under fire as it was recognised that the research did not offer immediate and simple prescriptions for effective science teaching. The whole approach was widely criticised, in particular by those who saw it as having ‘anti-science’ leanings. In this book, the notion of scientific research programmes is used to understand the development, limitations and potential of constructivism. It is shown that constructivist work in science education fits into a coherent programme exploring the contingencies of learning science. The author goes further to address criticisms of constructivism; evaluate progress in the field; and suggest directions for future research. It is concluded that constructivism has provided the foundations for a progressive research programme that continues to guide enquiry into learning and teaching science.
Author: Keith S. Taber
Publisher: Springer Science & Business Media
ISBN: 904812431X
Category : Science
Languages : en
Pages : 413
Get Book Here
Book Description
Exploring one of the central themes in science education theory, this volume examines how science education can be considered as a scientific activity within a broad post-positivist notion of science. Many students find learning science extremely problematic, whatever level of education they have reached. At the end of the 1970s a new approach to tackling learning difficulties in science was developed, drawing on ideas from psychology and cognitive science, and centred on the way students build up new knowledge in reference to their existing ideas. ‘Constructivism’ became the dominant paradigm in science education research for two decades, spawning a vast body of literature reporting aspects of learners’ ideas in different science topics. However, Constructivism came under fire as it was recognised that the research did not offer immediate and simple prescriptions for effective science teaching. The whole approach was widely criticised, in particular by those who saw it as having ‘anti-science’ leanings. In this book, the notion of scientific research programmes is used to understand the development, limitations and potential of constructivism. It is shown that constructivist work in science education fits into a coherent programme exploring the contingencies of learning science. The author goes further to address criticisms of constructivism; evaluate progress in the field; and suggest directions for future research. It is concluded that constructivism has provided the foundations for a progressive research programme that continues to guide enquiry into learning and teaching science.
Author: Alicia C. Alonzo
Publisher: Springer Science & Business Media
ISBN: 9460918247
Category : Education
Languages : en
Pages : 495
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Book Description
Learning progressions – descriptions of increasingly sophisticated ways of thinking about or understanding a topic (National Research Council, 2007) – represent a promising framework for developing organized curricula and meaningful assessments in science. In addition, well-grounded learning progressions may allow for coherence between cognitive models of how understanding develops in a given domain, classroom instruction, professional development, and classroom and large-scale assessments. Because of the promise that learning progressions hold for bringing organization and structure to often disconnected views of how to teach and assess science, they are rapidly gaining popularity in the science education community. However, there are signi?cant challenges faced by all engaged in this work. In June 2009, science education researchers and practitioners, as well as scientists, psychometricians, and assessment specialists convened to discuss these challenges as part of the Learning Progressions in Science (LeaPS) conference. The LeaPS conference provided a structured forum for considering design decisions entailed in four aspects of work on learning progressions: de?ning learning progressions; developing assessments to elicit student responses relative to learning progressions; modeling and interpreting student performance with respect to a learning progressions; and using learning progressions to in?uence standards, curricula, and teacher education. This book presents speci?c examples of learning progression work and syntheses of ideas from these examples and discussions at the LeaPS conference.
Author: Glen S. Aikenhead
Publisher: Teachers College Press
ISBN: 9780807746349
Category : Education
Languages : en
Pages : 194
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Book Description
This book provides a comprehensive overview of humanistic approaches to science. Approaches that connect students to broader human concerns in their everyday life and culture. Glen Aikenhead, an expert in the field of culturally sensitive science education, summarizes major worldwide historical findings; focuses on present thinking; and offers evidence in support of classroom practice. This highly accessible text covers curriculum policy, teaching materials, teacher orientations, teacher education, student learning, culture studies, and future research.
Author: National Research Council
Publisher: National Academies Press
ISBN: 0309214459
Category : Education
Languages : en
Pages : 400
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Book Description
Science, engineering, and technology permeate nearly every facet of modern life and hold the key to solving many of humanity's most pressing current and future challenges. The United States' position in the global economy is declining, in part because U.S. workers lack fundamental knowledge in these fields. To address the critical issues of U.S. competitiveness and to better prepare the workforce, A Framework for K-12 Science Education proposes a new approach to K-12 science education that will capture students' interest and provide them with the necessary foundational knowledge in the field. A Framework for K-12 Science Education outlines a broad set of expectations for students in science and engineering in grades K-12. These expectations will inform the development of new standards for K-12 science education and, subsequently, revisions to curriculum, instruction, assessment, and professional development for educators. This book identifies three dimensions that convey the core ideas and practices around which science and engineering education in these grades should be built. These three dimensions are: crosscutting concepts that unify the study of science through their common application across science and engineering; scientific and engineering practices; and disciplinary core ideas in the physical sciences, life sciences, and earth and space sciences and for engineering, technology, and the applications of science. The overarching goal is for all high school graduates to have sufficient knowledge of science and engineering to engage in public discussions on science-related issues, be careful consumers of scientific and technical information, and enter the careers of their choice. A Framework for K-12 Science Education is the first step in a process that can inform state-level decisions and achieve a research-grounded basis for improving science instruction and learning across the country. The book will guide standards developers, teachers, curriculum designers, assessment developers, state and district science administrators, and educators who teach science in informal environments.
Author: National Research Council
Publisher: National Academies Press
ISBN: 0309264812
Category : Education
Languages : en
Pages : 65
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Book Description
Following a 2011 report by the National Research Council (NRC) on successful K-12 education in science, technology, engineering, and mathematics (STEM), Congress asked the National Science Foundation to identify methods for tracking progress toward the report's recommendations. In response, the NRC convened the Committee on an Evaluation Framework for Successful K-12 STEM Education to take on this assignment. The committee developed 14 indicators linked to the 2011 report's recommendations. By providing a focused set of key indicators related to students' access to quality learning, educator's capacity, and policy and funding initiatives in STEM, the committee addresses the need for research and data that can be used to monitor progress in K-12 STEM education and make informed decisions about improving it. The recommended indicators provide a framework for Congress and relevant deferral agencies to create and implement a national-level monitoring and reporting system that: assesses progress toward key improvements recommended by a previous National Research Council (2011) committee; measures student knowledge, interest, and participation in the STEM disciplines and STEM-related activities; tracks financial, human capital, and material investments in K-12 STEM education at the federal, state, and local levels; provides information about the capabilities of the STEM education workforce, including teachers and principals; and facilitates strategic planning for federal investments in STEM education and workforce development when used with labor force projections. All 14 indicators explained in this report are intended to form the core of this system. Monitoring Progress Toward Successful K-12 STEM Education: A Nation Advancing? summarizes the 14 indicators and tracks progress towards the initial report's recommendations.
Author: Martin Braund
Publisher: SAGE Publications Limited
ISBN: 9781847870087
Category : Education
Languages : en
Pages : 0
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Book Description
This book combines reports on and reflection of best practice in improving progression and continuity of teaching and learning in science - particularly at the crucial transition stage between primary and secondary school. Presenting the views of teachers and pupils on progression and learning in science, the book suggests practical ways of improving teaching and learning. Each chapter includes examples of learning materials with notes on how these might be used or adapted by teachers in their own classroom settings.
Author: National Research Council
Publisher: National Academies Press
ISBN: 030909321X
Category : Education
Languages : en
Pages : 136
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Book Description
Transforming education into an evidence-based field depends in no small part on a strong base of scientific knowledge to inform educational policy and practice. Advancing Scientific Research in Education makes select recommendations for strengthening scientific education research and targets federal agencies, professional associations, and universitiesâ€"particularly schools of educationâ€"to take the lead in advancing the field.
Author: Margaret A.L. Blackie
Publisher: Taylor & Francis
ISBN: 1000599922
Category : Education
Languages : en
Pages : 295
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Book Description
This book helps meet an urgent need for theorized, accessible and discipline-sensitive publications to assist science, technology, engineering and mathematics educators. The book introduces Legitimation Code Theory (LCT) and demonstrates how it can be used to improve teaching and learning in tertiary courses across the sciences. LCT provides a suite of tools which science educators can employ in order to help their students grasp difficult and dense concepts. The chapters cover a broad range of subjects, including biology, physics, chemistry and mathematics, as well as different curriculum, pedagogy and assessment practices. This is a crucial resource for any science educator who wants to better understand and improve their teaching.
Author: National Academies of Sciences Engineering and Medicine
Publisher:
ISBN: 9780309477017
Category :
Languages : en
Pages :
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Book Description
Scientific thinking and understanding are essential for all people navigating the world, not just for scientists and other science, technology, engineering and mathematics (STEM) professionals. Knowledge of science and the practice of scientific thinking are essential components of a fully functioning democracy. Science is also crucial for the future STEM workforce and the pursuit of living wage jobs. Yet, science education is not the national priority it needs to be, and states and local communities are not yet delivering high quality, rigorous learning experiences in equal measure to all students from elementary school through higher education. Call to Action for Science Education: Building Opportunity for the Future articulates a vision for high quality science education, describes the gaps in opportunity that currently exist for many students, and outlines key priorities that need to be addressed in order to advance better, more equitable science education across grades K-16. This report makes recommendations for state and federal policy makers on ways to support equitable, productive pathways for all students to thrive and have opportunities to pursue careers that build on scientific skills and concepts. Call to Action for Science Education challenges the policy-making community at state and federal levels to acknowledge the importance of science, make science education a core national priority, and empower and give local communities the resources they must have to deliver a better, more equitable science education.
Author: National Research Council
Publisher: National Academies Press
ISBN: 0309213002
Category : Education
Languages : en
Pages : 44
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Book Description
Science, technology, engineering, and mathematics (STEM) are cultural achievements that reflect our humanity, power our economy, and constitute fundamental aspects of our lives as citizens, consumers, parents, and members of the workforce. Providing all students with access to quality education in the STEM disciplines is important to our nation's competitiveness. However, it is challenging to identify the most successful schools and approaches in the STEM disciplines because success is defined in many ways and can occur in many different types of schools and settings. In addition, it is difficult to determine whether the success of a school's students is caused by actions the school takes or simply related to the population of students in the school. Successful K-12 STEM Education defines a framework for understanding "success" in K-12 STEM education. The book focuses its analysis on the science and mathematics parts of STEM and outlines criteria for identifying effective STEM schools and programs. Because a school's success should be defined by and measured relative to its goals, the book identifies three important goals that share certain elements, including learning STEM content and practices, developing positive dispositions toward STEM, and preparing students to be lifelong learners. A successful STEM program would increase the number of students who ultimately pursue advanced degrees and careers in STEM fields, enhance the STEM-capable workforce, and boost STEM literacy for all students. It is also critical to broaden the participation of women and minorities in STEM fields. Successful K-12 STEM Education examines the vast landscape of K-12 STEM education by considering different school models, highlighting research on effective STEM education practices, and identifying some conditions that promote and limit school- and student-level success in STEM. The book also looks at where further work is needed to develop appropriate data sources. The book will serve as a guide to policy makers; decision makers at the school and district levels; local, state, and federal government agencies; curriculum developers; educators; and parent and education advocacy groups.
