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Creating Change to Improve Science and Mathematics Education

Creating Change to Improve Science and Mathematics Education
Author: Chong Ho Yu
Publisher: Springer Nature
Total Pages: 171
Release: 2020-03-23
Genre: Education
ISBN: 9811531560
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This book discusses the merits and potential shortcomings of Hong Kong STEM education from Grade 8 to Grade 12. Based on concurrent triangulated mixed-method methodology, which integrates both quantitative and qualitative procedures, it describes various change models and proposes new models that are considered compatible with Western cultures.

Designing Professional Development for Teachers of Science and Mathematics

Designing Professional Development for Teachers of Science and Mathematics
Author: Susan Loucks-Horsley
Publisher: Corwin Press
Total Pages: 425
Release: 2009-11-24
Genre: Education
ISBN: 1452272557
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"This third edition represents the gold standard of resources for those working in the field of professional development. My staff and I highly recommend this book as a primary resource for designing and continuously improving professional development programs for teachers of science and mathematics. Unlike other resources, this unique and important book provides current research, an updated strategic planning framework, and access to a portfolio of best practices for informing your work." —Sally Goetz Shuler, Executive Director National Science Resources Center "In the 21st century when STEM education has become vital for our students and our nation and the importance of quality professional development has increased at least tenfold, this seminal work should be required reading for every education leader. It is both practical and scholarly in guiding a school toward a culture of continuous learning and improvement." —Harold Pratt, President, Science Curriculum Inc. Former President, National Science Teachers Association The classic guide for designing robust science and mathematics professional development programs! This expanded edition of one of the most widely cited resources in the field of professional learning for mathematics and science educators demonstrates how to design professional development for teachers that is directly linked to improving student learning. Presenting an updated professional development (PD) planning framework, the third edition of the bestseller reflects current research on PD design, underscores how beliefs and local factors can influence the PD design, illustrates a wide range of PD strategies, and emphasizes the importance of: Continuous program monitoring Combining strategies to address diverse needs Building cultures that sustain learning An inspiring blend of theory and practical wisdom, Designing Professional Development for Teachers of Science and Mathematics remains a highly regarded reference for improving professional practice and student achievement.

Improving Mathematics Education

Improving Mathematics Education
Author: National Research Council
Publisher: National Academies Press
Total Pages: 59
Release: 2002-01-28
Genre: Education
ISBN: 0309083001
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Improving Mathematics Education has been designed to help inform stakeholders about the decisions they face, to point to recent research findings, and to provide access to the most recent thinking of experts on issues of national concern in mathematics education. The essence of the report is that information is available to help those charged with improving student achievement in mathematics. The documents cited above can guide those who make decisions about content, learning, teaching, and assessment. The report is organized around five key questions: What should we teach, given what we know and value about mathematics and its roles? How should we teach so children learn, given what we know about students, mathematics, and how people learn mathematics? What preparation and support do teachers need? How do we know whether what we are doing is working? What must change? Each of the five main chapters in this report considers a key area of mathematics education and describes the core messages of current publication(s) in that area. To maintain the integrity of each report's recommendations, we used direct quotes and the terminology defined and used in that report. If the wording or terminology seems to need clarification, the committee refers the reader directly to the original document. Because these areas are interdependent, the documents often offer recommendations related to several different areas. While the individual documents are discussed under only one of the components in Improving Mathematics Education, the reader should recognize that each document may have a broader scope. In general, the references in this report should serve as a starting point for the interested reader, who can refer to the original documents for fuller discussions of the recommendations and, in some cases, suggestions for implementation. Improving Mathematics Education is designed to help educators build a critical knowledge base about mathematics education, recognizing that the future of the nation's students is integrally intertwined with the decisions we make (or fail to make) about the mathematics education they receive.

Mathematics and Science for a Change

Mathematics and Science for a Change
Author: Iris R. Weiss
Publisher: Heinemann Educational Books
Total Pages: 116
Release: 2009
Genre: Education
ISBN:
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Take advantage of what this volume offers. You will be in a better position to make well-informed decisions because you will be able to see the full sweep of what constitutes quality professional development for mathematics and science teachers. - Barbara Miller Education Development Center, Inc. You've decided it's time for something different. A new way to teach mathematics and science that supports higher achievement in all students. And that means rethinking how you provide teacher professional development. Sounds like a tough task, but you've got a guide to doing it right. Mathematics and Science for a Change collects the wisdom of successful initiatives into one concise guide to making successful change. Mathematics and Science for a Changedescribes the lessons learned by effective National Science Foundation - funded Local Systemic Change programs. Iris Weiss and Joan Pasley support your initiative with key practices drawn from a careful examination of more than ten years of case histories and data. With their observations, you'll: lay the groundwork for change by diagnosing your building or district needs and establishing a vision for high-quality mathematics and science instruction that is consistent with national standards design professional development that achieves your goals by deepening teacher content knowledge, modeling best-practice instruction, and encouraging more productive assessments launch and sustain your professional development model by identifying, preparing, and supporting PD providers then uncovering and nurturing leadership among your staff bolster your improvement effort by enlisting key school or district leaders, partnering with the mathematics and science community outside your system, and engaging the support of parents. Weiss and Pasley fill Mathematics and Science for a Change with on-the-ground advice and the specific strategies of top initiatives around the country. Everything in their book helps you smoothly meet the most important objective of any change program: helping every student learn mathematics and science better.

Reimagining the Mathematics Classroom

Reimagining the Mathematics Classroom
Author: Cathery Yeh
Publisher: National
Total Pages: 0
Release: 2017
Genre: Educational change
ISBN: 9780873539081
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Presents a comprehensive systems approach to examining mathematics teaching. This volume synthesizes and illustrates current research on the essential elements of mathematics teaching and learning, unpacking each component. In addition, tips on using technology to assess and enhance learning are embedded throughout the book.

University Science and Mathematics Education in Transition

University Science and Mathematics Education in Transition
Author: Ole Skovsmose
Publisher: Springer Science & Business Media
Total Pages: 353
Release: 2008-11-19
Genre: Education
ISBN: 0387098291
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More than ever, our time is characterised by rapid changes in the organisation and the production of knowledge. This movement is deeply rooted in the evolution of the scientific endeavour, as well as in the transformation of the political, economic and cultural organisation of society. In other words, the production of scientific knowledge is changing both with regard to the internal development of science and technology, and with regard to the function and role science and technology fulfill in society. This general social context in which universities and knowledge production are placed has been given different names: the informational society, the knowledge society, the learning society, the post-industrial society, the risk society, or even the post-modern society. A common feature of different characterisations of this historic time is the fact that it is a period in construction. Parts of the world, not only of the First World but also chunks of the Developing World, are involved in these transformations. There is a movement from former social, political and cultural forms of organisation which impact knowledge production into new forms. These forms drive us into forms of organisation that are unknown and that, for their very same complexity, do not show a clear ending stage. Somehow the utopias that guided the ideas of development and progress in the past are not present anymore, and therefore the transitions in the knowledge society generate a new uncertain world. We find ourselves and our universities to be in a transitional period in time. In this context, it is difficult to avoid considering seriously the challenges that such a complex and uncertain social configuration poses to scientific knowledge, to universities and especially to education in mathematics and science. It is clear that the transformation of knowledge outside universities has implied a change in the routes that research in mathematics, science and technology has taken in the last decades. It is also clear that in different parts of the world these changes have happened at different points in time. While universities in the "New World" (the American Continent, Africa, Asia and Oceania) have accommodated their operation to the challenges of the construction in the new world, in many European countries universities with a longer existence and tradition have moved more slowly into this time of transformation and have been responding at a less rapid pace to environmental challenges. The process of tuning universities, together with their forms of knowledge production and their provision of education in science and mathematics, with the demands of the informational society has been a complex process, as complex as the general transformation undergoing in society. Therefore an understanding of the current transitions in science and mathematics education has to consider different dimensions involved in such a change. Traditionally, educational studies in mathematics and science education have looked at changes in education from within the scientific disciplines and in the closed context of the classroom. Although educational change in the very end is implemented in everyday teaching and learning situations, other parallel dimensions influencing these situations cannot be forgotten. An understanding of the actual potentialities and limitations of educational transformations are highly dependent on the network of educational, cultural, administrative and ideological views and practices that permeate and constitute science and mathematics education in universities today. This book contributes to understanding some of the multiple aspects and dimensions of the transition of science and mathematics education in the current informational society. Such an understanding is necessary for finding possibilities to improve science and mathematics education in universities all around the world. Such a broad approach to the transitions happening in these fields has not been addressed yet by existing books in the market.

Educating Teachers of Science, Mathematics, and Technology

Educating Teachers of Science, Mathematics, and Technology
Author: National Research Council
Publisher: National Academies Press
Total Pages: 233
Release: 2001-01-18
Genre: Education
ISBN: 0309070333
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Each new headline about American students' poor performance in math and science leads to new calls for reform in teaching. Education Teachers of Science, Mathematics, and Technology puts the whole picture together by synthesizing what we know about the quality of math and science teaching, drawing conclusions about why teacher preparation needs reform, and then outlining recommendations for accomplishing the most important goals before us. As a framework for addressing the task, the book advocates partnerships among school districts, colleges, and universities, with contributions from scientists, mathematicians, teacher educators, and teachers. It then looks carefully at the status of the education reform movement and explores the motives for raising the bar for how well teachers teach and how well students learn. Also examined are important issues in teacher professionalism: what teachers should be taught about their subjects, the utility of in-service education, the challenge of program funding, and the merits of credentialing. Professional Development Schools are reviewed and vignettes presented that describe exemplary teacher development practices.

Science for All Children

Science for All Children
Author: National Science Resources Center of the National Academy of Sciences and the Smithsonian Institution
Publisher: National Academies Press
Total Pages: 240
Release: 1997-01-08
Genre: Education
ISBN: 0309176298
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Remember the first time you planted a seed and watched it sprout? Or explored how a magnet attracted a nail? If these questions bring back memories of joy and wonder, then you understand the idea behind inquiry-based scienceâ€"an approach to science education that challenges children to ask questions, solve problems, and develop scientific skills as well as gain knowledge. Inquiry-based science is based on research and experience, both of which confirm that children learn science best when they engage in hands-on science activities rather than read from a textbook. The recent National Science Education Standards prepared by the National Research Council call for a revolution in science education. They stress that the science taught must be based on active inquiry and that science should become a core activity in every grade, starting in kindergarten. This easy-to-read and practical book shows how to bring about the changes recommended in the standards. It provides guidelines for planning and implementing an inquiry-based science program in any school district. The book is divided into three parts. "Building a Foundation for Change," presents a rationale for inquiry-based science and describes how teaching through inquiry supports the way children naturally learn. It concludes with basic guidelines for planning a program. School administrators, teachers, and parents will be especially interested in the second part, "The Nuts and Bolts of Change." This section describes the five building blocks of an elementary science program: Community and administrative support. A developmentally appropriate curriculum. Opportunities for professional development. Materials support. Appropriate assessment tools. Together, these five elements provide a working model of how to implement hands-on science. The third part, "Inquiry-Centered Science in Practice," presents profiles of the successful inquiry-based science programs in districts nationwide. These profiles show how the principles of hands-on science can be adapted to different school settings. If you want to improve the way science is taught in the elementary schools in your community, Science for All Children is an indispensable resource.

Improving Math and Science Teaching

Improving Math and Science Teaching
Author: Kay McKinney
Publisher: Department of Education
Total Pages: 40
Release: 1993
Genre: Business & Economics
ISBN:
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A 1992 conference on mathematics and science teaching focused on two specific topics: enhanced professional development for educators and better instructional materials for the classroom. Teachers, members of Congress, governors, teacher educators, professors, researchers, and policymakers shared what they believed was needed to be done to improve mathematics and science education in the United States. This booklet reports the views of the participants and the general consensus of the conference regarding changes needed in the education system. The concepts of systemic reform in education and the setting of national standards as exemplified by the National Council of Teachers of Mathematics are discussed in section 1. The second section discusses the necessity of providing all children with an opportunity to learn mathematics and science. The third section reports the participants' views emphasizing courses that teach mathematics and science for understanding. The fourth section discusses the necessity to prepare teachers of math and science to higher standards of skill and knowledge. Extensive professional development to help practicing teachers enhance their skills is suggested. The fifth section examines the need for the development of better instructional materials for the mathematics and science classroom. Finally, 20 recommendations in the following 4 themes are reported: (1) standards; (2) improving mathematics and science teaching; (3) instructional materials; and (4) systemic change. A list of presenters and demonstrators and a statement of principles on school reform in mathematics and science are provided. (MDH)

Designing Professional Development for Teachers of Science and Mathematics

Designing Professional Development for Teachers of Science and Mathematics
Author: Susan Loucks-Horsley
Publisher: Corwin Press
Total Pages: 408
Release: 2003-02-14
Genre: Education
ISBN: 0761946861
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This New Edition collects and brings together in one place what has been learned from professional developers efforts across the country in order to make the framework, principles, and strategies of the first edition come to life. This edition deepens our understanding of professional development through further research and new resources. The original purpose of this book to put a competent and caring teacher in every classroom has yet to be fulfilled and is more urgent now than ever. The authors provide one-stop shopping for busy practitioners that incorporates the most up-to-date research gleaned from the broadest possible research base as well as robust and rich descriptions of effective professional development programmes. It incorporates the growing knowledge base about learning, teaching, the nature of science and mathematics, professional development, and change. The authors scanned the field of professional development in mathematics and science over the last five years, noting what has changed and what has not, dissected the original framework, updated examples, incorporate what authors have learned as well as advances in the field. This essential primer offers a framework that considers key inputs and combines strategies uniquely tailored to their environment and goals; summarizes key knowledge and best practices; provides guidance on assessing one′s context; describes strategies that go beyond most common workshops and institutes; provides real-life examples of how elements of the framework were used to create professional development initiatives; offers references and resources for further exploration and inquiry. Highlights of the Second Edition include: - New design framework that incorporates standards, student learning data, and evaluation techniques - More guidance for assessing context using data - More strategies for professional development, including lesson study, aligning and selecting curriculum, and demonstration lessons. - Stronger real-life examples, including new uses of technology and data-driven designs An essential resource for educators who design, conduct, and support professional development for teachers of mathematics and science, including staff developers, principals, teacher leaders, curriculum supervisors, and leadership teams. College and university faculty in education, science, and mathematics will also find this to be a useful compendium of ideas for improving mathematics and science education.