Achieving Scientific Literacy From Purposes To Practices

  achieving scientific literacy from purposes to practices: PISA Science 2006 Rodger W. Bybee, Barry McCrae, 2009 Comprehensive, thought-provoking, and indispensable, PISA Science 2006, provides educators with a top-down view of where we stand today in science education and what this means for students and educators.
  achieving scientific literacy from purposes to practices: Achieving Scientific Literacy Rodger W. Bybee, 1997 Achieving Scientific Literacy offers a broad vision for improving science education.
  achieving scientific literacy from purposes to practices: Exploring the Landscape of Scientific Literacy Cedric Linder, Leif Östman, Douglas A. Roberts, Per-Olof Wickman, Gaalen Ericksen, Allan MacKinnon, 2010-10-04 Offering new ways to look at the key ideas and practices associated with promoting scientific literacy, this book takes a pragmatic and inclusive perspective on curriculum reform and learning and presents a future vision for science education research and practice.
  achieving scientific literacy from purposes to practices: Socioscientific Issues-Based Instruction for Scientific Literacy Development Powell, Wardell A., 2020-09-11 Socioscientific issues require individuals to use moral and ethical considerations to help in their evaluation of evidence and decision making, entailing controversial scientific phenomena. Such issues include genetic engineering and biotechnology. Socioscientific issues pedagogy has the potential to enhance students’ overall conceptual understanding of scientific phenomena that affect the daily lives of people across the globe. Socioscientific Issues-Based Instruction for Scientific Literacy Development is a critical scholarly publication that examines the development of a research-based integrated socioscientific issues pedagogy for use in the K-12 system, teacher education preparation, and informal education centers. The publication focuses on science education researchers and pre-service and in-service teachers’ abilities to design and implement meaningful learning opportunities for students to use rationalistic, intuitive, and emotive perspectives as they engage in information reasoning on scientific topics, such as climate change and CRISPR, that are of utmost importance. Teachers in the K-12 system and informal education settings will be able to use this text to enhance scientific literacy among their students. Instructors in teacher preparation programs will be able to use this research-based text to improve pre-service and in-service teachers’ abilities to use socioscientific issues pedagogy to enhance scientific literacy among K-12 students. Additionally, audiences including researchers, administrators, academicians, policymakers, and students will find this book beneficial for their studies.
  achieving scientific literacy from purposes to practices: Science Matters Robert M. Hazen, James Trefil, 2009-06-09 A science book for the general reader that is informative enough to be a popular textbook and yet well-written enough to appeal to general readers. “Hazen and Trefil [are] unpretentious—good, down-to-earth, we-can-explain-anything science teachers, the kind you wish you had but never did.”—The New York Times Book Review Knowledge of the basic ideas and principles of science is fundamental to cultural literacy. But most books on science are often too obscure or too specialized to do the general reader much good. Science Matters is a rare exception—a science book that is informative enough for introductory courses in high school and college, and yet lucid enough for readers uncomfortable with scientific jargon and complicated mathematics. And now, revised and expanded, it is up-to-date, so that readers can enjoy Hazen and Trefil's refreshingly accessible explanations of the most recent developments in science, from particle physics to biotechnology.
  achieving scientific literacy from purposes to practices: Handbook of Research on Science Education Sandra K. Abell, Ken Appleton, Deborah Hanuscin, 2013-03-07 This state-of-the art research Handbook provides a comprehensive, coherent, current synthesis of the empirical and theoretical research concerning teaching and learning in science and lays down a foundation upon which future research can be built. The contributors, all leading experts in their research areas, represent the international and gender diversity that exists in the science education research community. As a whole, the Handbook of Research on Science Education demonstrates that science education is alive and well and illustrates its vitality. It is an essential resource for the entire science education community, including veteran and emerging researchers, university faculty, graduate students, practitioners in the schools, and science education professionals outside of universities. The National Association for Research in Science Teaching (NARST) endorses the Handbook of Research on Science Education as an important and valuable synthesis of the current knowledge in the field of science education by leading individuals in the field. For more information on NARST, please visit: http://www.narst.org/.
  achieving scientific literacy from purposes to practices: Research and the Quality of Science Education Kerst Boersma, Martin Goedhart, Onno de Jong, Harrie Eijkelhof, 2006-02-23 In August 2003 over 400 researchers in the field of science education from all over the world met at the 4th ESERA conference in Noordwijkerhout, The Netherlands. During the conference 300 papers about actual issues in the field, such as the learning of scientific concepts and skills, scientific literacy, informal science learning, science teacher education, modeling in science education were presented. The book contains 40 of the most outstanding papers presented during the conference. These papers reflect the quality and variety of the conference and represent the state of the art in the field of research in science education.
  achieving scientific literacy from purposes to practices: Inquiry in the Classroom Eleanor Abrams, Sherry Southerland, Peggy Silva, 2007-11-01 The purpose of this text is to further flesh out some of the factors--specific dimensions of our n-dimensional hyperspace--important to inquiry in the classroom. As such, some of the of the factors have already been introduced, others will be new to the conversation. In our discussions that lead to the preparation of this manuscript, it became clear that each of us was interested in classroom inquiry, and so we each wanted to situate our analysis in these classrooms. For that purpose, our discussions are organized into sections. Each section begins with one (or more) vignette--snippets of science classrooms--that the authors then discuss how this vignette demonstrates some aspect of the specific dimension that they are charged with discussing. Because inquiry is so multifaceted and its portrayals are often complex and nuanced, the discussion of the dimension is broken into separate essays--each of which addresses the focal dimension in different ways. Following the essay, a broader discussion across the essays is offered to support your sense making. As we began this effort, we selected what we understood to be the most influential dimensions of inquiry in the classroom. But certainly there are others that can and should have been included, (i.e., the role of curriculum in supporting (or confining) the enactment of inquiry, the manner in which inquiry can shape students' knowledge, the role systemic efforts can have in enabling inquiry). But given the confines of one text, we've chosen what we understood to be the central components, and these have been arranged into 6 sections. Our vision is that each of these sections can be self-supporting, so their appearance in the text doesn't represent the order in which they must be read. Ideally, the reader would engage in the introduction, then select the section that addresses the dimension influencing classroom inquiry that is of greatest importance. The only exception to this is section 6, which is a specific form of enactment of classroom inquiry; engagement with this section may be best augmented after reading the sections that interest you.
  achieving scientific literacy from purposes to practices: The World of Science Education , 2019-02-11 Each volume in the 7-volume series The World of Science Education reviews research in a key region of the world. These regions include North America, South and Latin America, Asia, Australia and New Zealand, Europe and Israel, North Africa and the Middle East, and Sub-Saharan Africa. The focus of this Handbook is on North American (Canada, US) science education and the scholarship that most closely supports this program. The reviews of the research situate what has been accomplished within a given field in North American rather an than international context. The purpose therefore is to articulate and exhibit regional networks and trends that produced specific forms of science education. The thrust lies in identifying the roots of research programs and sketching trajectories—focusing the changing façade of problems and solutions within regional contexts. The approach allows readers review what has been done and accomplished, what is missing, and what might be done next.
  achieving scientific literacy from purposes to practices: Inquiry-Based Learning for Science, Technology, Engineering, and Math (STEM) Programs Patrick Blessinger, John M. Carfora, 2015-10-20 This volume covers the many issues and concepts of how IBL can be applied to STEM programs and serves as a conceptual and practical resource and guide for educators and offers practical examples of IBL in action and diverse strategies on how to implement IBL in different contexts.
  achieving scientific literacy from purposes to practices: Picture-perfect Science Lessons Karen Rohrich Ansberry, Emily Rachel Morgan, 2005 Provides fifteen lesson plans that incorporate picture books into the science curriculum.
  achieving scientific literacy from purposes to practices: More Picture-perfect Science Lessons Karen Rohrich Ansberry, Emily Rachel Morgan, 2007 Teacher's handbook for teaching science.
  achieving scientific literacy from purposes to practices: Cultivating Visionary Leadership by Learning for Global Success Don Pardlow, Mary Alice Trent, 2015-09-04 This anthology explores theories and pedagogical practices that seek to graduate global leaders who are culturally astute, intellectually alert, technologically creative and innovative, and ethically sound. In Part I, the contributors examine the tasks of helping students develop a voice, an identity, and a sense of mission in their writing. Part II explores the teaching of literacies in the areas of science, technology, engineering, and mathematics (STEM); literacies necessary for creating competitive visionary leaders in the marketplace. Part III showcases methods of instruction that teachers draw from histories, literature, social sciences, and American cultures in particular and global cultures in general. In Part IV, the contributors offer teaching strategies not only in critical-thinking skills, but also in imaginative, creative-thinking skills to prepare visionary leaders to create solutions and products to meet the needs of the world’s population and marketplaces.
  achieving scientific literacy from purposes to practices: Research in Science Education — Past, Present, and Future Helga Behrendt, Helmut Dahncke, Reinders Duit, Wolfgang Gräber, Michael Komorek, Angela Kross, Priit Reiska, 2005-12-27 This truly international volume includes a selection of contributions to the Second Conference of the European Science Education Research Association (Kiel, Sept. 1999). It provides a state-of-the-art examination of science education research in Europe, discusses views and visions of science education research, deals with research on scientific literacy, on students' and teachers' conceptions, on conceptual change, and on instructional media and lab work.
  achieving scientific literacy from purposes to practices: Researching and Teaching Social Issues Samuel Totten, Jon Pedersen, 2012-05-01 (orginally published by Lexington Books, A division of Rowman & Littlefield) Researching and Teaching Social Issues: The Personal Stories and Pedagogical Efforts of Professors of Education is comprised of original personal essays in which notable teacher educators delineate the genesis and evolution of their thought and work vis-a-vis the teaching of social issues. In relating their personal stories, the authors were asked to discuss among other issues those individuals and/or scholarly works that have most influenced them and how, their own aspirations in the field, the frustrations they have faced, their perceptions of the field, their major contributions, and their current endeavors. Our goal was that each and every story be as informative, instructive, and engaging as possible. We believe that readers will be thoroughly engaged as they read the stories of these individuals—stories that are inspiring, filled with passion, and reflective in nature. We also believe that readers will gain unique pedagogical insights into the field and ample food for thought. The individuals selected for inclusion in the book dedicated a great amount of time, thought, energy, and commitment to creating powerful and pedagogically sound ways to teach about social and/or controversial issues. Many have done so for well over forty years, and have been among the strongest advocates vis-à-vis the place social issues have in the extant curriculum and beyond.
  achieving scientific literacy from purposes to practices: Perspectives on Object-Centered Learning in Museums Scott G. Paris, 2002-04 The goal of this book is to cull from the last NSF conference, the best ideas about how children interact with objects & through that interaction acquire new understandings, attitudes, and feelings.
  achieving scientific literacy from purposes to practices: The Psychology of Science Text Comprehension José Otero, José A. León, Arthur C. Graesser, 2014-04-04 This volume's goal is to provide readers with up-to-date information on the research and theory of scientific text comprehension. It is widely acknowledged that the comprehension of science and technological artifacts is very difficult for both children and adults. The material is conceptually complex, there is very little background knowledge for most individuals, and the materials are often poorly written. Therefore, it is no surprise that students are turned off from learning science and technology. Given these challenges, it is important to design scientific text in a fashion that fits the cognitive constraints of the learner. The enterprise of textbook design needs to be effectively integrated with research in discourse processing, educational technology, and cognitive science. This book takes a major step in promoting such an integration. This volume: *provides an important integration of research and theory with theoretical, methodological, and educational applications; *includes a number of chapters that cover how science text information affects mental representations and strategies; *introduces important suggestions about how text design and new technologies can be thought of as pedagogical features; and *establishes academic text taxonomies and a consensus of the criteria to organize inferences and other mental mechanisms.
  achieving scientific literacy from purposes to practices: Inquiry into the Singapore Science Classroom Aik-Ling Tan, Chew-Leng Poon, Shirley S.L. Lim, 2014-05-19 This book offers an insight into the research and practices of science teaching and learning in the Singapore classroom, with particular attention paid to how they map on to science as inquiry. It provides a spectrum of Singapore’s science educational practices through all levels of its education system, detailing both successes and shortcomings. The book features a collection of research and discourse by science educators in Singapore, organized around four themes that are essential components of approaching science as inquiry: teachers’ ideas and their practices, opportunities and constraints from a systemic level, students’ competencies and readiness to learn through inquiry and the need for greater awareness of the role of informal learning avenues in science education. In addition, the discourse within each theme is enriched by commentary from a leading international academic, which helps to consolidate ideas as well as position the issues within a wider theoretical and international context. Overall, the papers set out important contexts for readers to understand the current state of science education in Singapore. They also highlight strengths and gaps in practices of science as inquiry as well as provide suggestions about how the system can be improved. These research findings are therefore helpful as they provide honest and evidence-based feedback as well as tangible and doable ideas that policy makers, teachers, students and school administrators can adopt, adapt and enhance.
  achieving scientific literacy from purposes to practices: Primary Science Education in East Asia Yew-Jin Lee, Jason Tan, 2018-09-26 This edited volume is a state-of-the-art comparison of primary science education across six East-Asian regions; namely, the People’s Republic of China, Republic of Korea, Republic of China, Hong Kong SAR, Japan, and Singapore. While news of educational policies, classroom teaching, assessment, and other educational innovations here often surface in the international media, this book brings together for the first time relevant information regarding educational systems and strategies in primary science in East Asia. Above all, it is a readable yet comprehensive survey—readers would have an accurate sense of what has been accomplished, what has not worked so well, and what remains to be done. Invited experts in comparative education research and/or science education also provide commentary by discussing common themes across the six regions. These types of critical synoptic reviews add much value by enabling readers to understand broad commonalities and help synthesize what must surely be a bewildering amount of very interesting albeit confusing body of facts, issues, and policies. Education in East Asia holds many lessons (both positive and negative) to offer to the rest of the world to which this volume is a timely contribution to the literature.
  achieving scientific literacy from purposes to practices: Contemporary Australian Primary Science Teacher Education Angela Fitzgerald, Kimberley Pressick-Kilborn, Reece Mills, Linda Pfeiffer, James Deehan, 2024-09-06 This book provides an evidence-based response to how ‘classroom-readiness’ translates into the preparation of future teachers of science. It juxtaposes contemporary understanding of programming and practices in initial teacher education in an Australian context against international narratives. Through this, this book shifts the understanding of primary science education from a deficit model to one that critically examines, challenges and contest what is happening in this space, and why. It proposes problems of practice in primary science teacher education and then draws on these provocations to provide insights into possible solutions.
  achieving scientific literacy from purposes to practices: School Science Practical Work in Africa Umesh Ramnarain, 2020-06-01 School Science Practical Work in Africa presents the scope of research and practice of science practical work in African schools. It brings together prominent science educators and researchers from Africa to share their experience and findings on pedagogical innovations and research-informed practices on school science practical work. The book highlights trends and patterns in the enactment and role of practical work across African countries. Practical work is regarded as intrinsic to science teaching and learning and the form of practical work that is strongly advocated is inquiry-based learning, which signals a definite paradigm shift from the traditional teacher-dominated to a learner-centered approach. The book provides empirical research on approaches to practical work, contextual factors in the enactment of practical work, and professional development in teaching practical work. This book will be of great interest to academics, researchers and post-graduate students in the fields of science education and educational policy.
  achieving scientific literacy from purposes to practices: Hard-to-Teach Science Concepts Susan Koba, Carol T. Mitchell, 2011 Authors Susan Koba and Carol Mitchell introduce teachers of grades 3- 5 to their conceptual framework for successful instruction of hard-to-teach science concepts. Their methodology comprises four steps: (1) engage students about their preconceptions and address their thinking; (2) target lessons to be learned; (3) determine appropriate strategies; and (4) use Standards-based teaching that builds on student understandings. The authors not only explain how to use their framework but also provide a variety of tools and examples of its application on four hard-to-teach foundational concepts: the flow of energy and matter in ecosystems, force and motion, matter and its transformation, and Earth's shape. Both preservice and inservice elementary school teachers will find this approach appealing, and the authors' engaging writing style and user-friendly tables help educators adapt the method with ease.
  achieving scientific literacy from purposes to practices: Teaching Science in Elementary and Middle School Cory A. Buxton, Eugene F. Provenzo, Jr., 2010-07-08 A practical methods text that prepares teachers to engage their students in rich science learning experiences Featuring an increased emphasis on the way today′s changing science and technology is shaping our culture, this Second Edition of Teaching Science in Elementary and Middle School provides pre- and in-service teachers with an introduction to basic science concepts and methods of science instruction, as well as practical strategies for the classroom. Throughout the book, the authors help readers learn to think like scientists and better understand the role of science in our day-to-day lives and in the history of Western culture. Part II features 100 key experiments that demonstrate the connection between content knowledge and effective inquiry-based pedagogy. The Second Edition is updated throughout and includes new coverage of applying multiple intelligences to the teaching and learning of science, creating safe spaces for scientific experimentation, using today′s rapidly changing online technologies, and more. Valuable Instructor and Student resources: The password-protected Instructor Teaching Site includes video clips that illustrate selected experiments, PowerPoint® lecture slides, Electronic Test Bank, Teaching guides, and Web resources. The open-access Student Study Site includes tools to help students prepare for exams and succeed in the course: video clips that illustrate selected experiments, chapter summaries, flash cards, quizzes, helpful student guides links to state standards, licensure exams and PRAXIS resources, and Learning from SAGE Journal Articles.
  achieving scientific literacy from purposes to practices: Socioscientific Issues Focused Teacher Education Bahadir Namdar, Engin Karahan, 2024-03-30 This book explores place-based pedagogies in the context of socioscientific issues in Türkiye. From local and global contexts, it delves into research-based learning activities for science teacher educators, offering insights to educators worldwide. The book aims to empower teachers to provide students with learning experiences centered on local socioscientific issues essential for developing scientifically literate citizens. Each chapter showcases effective practices, focusing on local topics like gold mining, nuclear power plants, and river pollution. By incorporating socioscientific elements into science lessons, teachers are encouraged to foster students’ responsibility values, argumentation, critical thinking, and awareness. Emphasizing the crucial components of place-basedness and relevancy of SSI learning environments, students are guided towards more sophisticated ways of conceptualizing and resolving SSI. The intended audience includes science teacher educators, researchers, and educators devoted to engaging students in meaningful socioscientific learning experiences.
  achieving scientific literacy from purposes to practices: The Go-To Guide for Engineering Curricula, PreK-5 Cary I. Sneider, 2014-09-05 How to engineer change in your elementary science classroom With the Next Generation Science Standards, your students won’t just be scientists—they’ll be engineers. But you don’t need to reinvent the wheel. Seamlessly weave engineering and technology concepts into your PreK-5 math and science lessons with this collection of time-tested engineering curricula for science classrooms. Features include: A handy table that leads you straight to the chapters you need In-depth commentaries and illustrative examples A vivid picture of each curriculum, its learning goals, and how it addresses the NGSS More information on the integration of engineering and technology into elementary science education
  achieving scientific literacy from purposes to practices: The Go-To Guide for Engineering Curricula, Grades 6-8 Cary I. Sneider, 2014-11-25 How to engineer change in your middle school science classroom With the Next Generation Science Standards, your students won’t just be scientists—they’ll be engineers. But you don’t need to reinvent the wheel. Seamlessly weave engineering and technology concepts into your middle school math and science lessons with this collection of time-tested engineering curricula for science classroom materials. Features include: A handy table that leads you to the chapters you need In-depth commentaries and illustrative examples A vivid picture of each curriculum, its learning goals, and how it addresses the NGSS More information on the integration of engineering and technology into middle school science education
  achieving scientific literacy from purposes to practices: The Art of Teaching Science Vaille Dawson, Jennifer Donovan, 2020-07-16 The Art of Teaching Science has proven itself to be one of the most popular introductory texts for Australian pre-service and in-service teachers, providing guidance on engaging students and helping develop scientifically literate citizens. Beginning with an examination of the nature of science, constructivist and socio-cultural views of teaching and learning and contemporary science curricula in Australian schools, the expert authors go on to explore effective teaching and learning strategies, approaches to assessment and provide advice on the use of ICT in the classroom. Fully revised and updated, this edition also reflects the introduction of the AITSL professional standards for teachers and integrates them throughout the text. New chapters explore: •a range of teaching strategies including explicit instruction, active learning and problem-based learning; •the effective integration of STEM in schools; •approaches to differentiation in science education; and •contemporary uses of ICT to improve student learning. Those new to this text will find it is deliberately written in user-friendly language. Each chapter stands alone, but collectively they form a coherent picture of the art (in the sense of creative craft) and science (as in possessing the knowledge, understanding and skills) required to effectively teach secondary school science. 'Helping each new generation of school science teachers as they begin their careers is crucial to education. This is the updated, third edition of this valuable textbook. It contains a wonderful range of inspirational chapters. All science teachers, not only those at the start of the profession, would benefit from it, in Australia and beyond.' Michael J. Reiss, Professor of Science Education, University College, London
  achieving scientific literacy from purposes to practices: Global Perspectives of Nanoscience and Engineering Education Kurt Winkelmann, Bharat Bhushan, 2016-06-28 This book presents the perspectives of nanotechnology educators from around the world. Experts present the pressing challenges of teaching nanoscience and engineering to students in all levels of education, postsecondary and informal environments. The book was inspired by the 2014 NSF workshop for Nanoscience and Engineering Education. Since nanotechnology is a relatively new field, authors present recommendations for designing nanotechnology education programs. The chapters describe methods to teach specific topics, such as probe microscopy, size and scale, and nanomaterial safety, in classrooms around the world. Other chapters describe the ways that organizations like NNIN and the NISE Network have influenced informal nanotechnology education. Information technology plays a growing role in all types of education and several chapters are devoted to describing ways how educators can use online curricula for teaching nanotechnology to students from preschool to graduate school.
  achieving scientific literacy from purposes to practices: Youth, Identity, and Digital Media David Buckingham, 2007-11-30 Contributors discuss how growing up in a world saturated with digital media affects the development of young people's individual and social identities. As young people today grow up in a world saturated with digital media, how does it affect their sense of self and others? As they define and redefine their identities through engagements with technology, what are the implications for their experiences as learners, citizens, consumers, and family and community members? This addresses the consequences of digital media use for young people's individual and social identities. The contributors explore how young people use digital media to share ideas and creativity and to participate in networks that are small and large, local and global, intimate and anonymous. They look at the emergence of new genres and forms, from SMS and instant messaging to home pages, blogs, and social networking sites. They discuss such topics as “girl power” online, the generational digital divide, young people and mobile communication, and the appeal of the “digital publics” of MySpace, considering whether these media offer young people genuinely new forms of engagement, interaction, and communication. Contributors Angela Booker, danah boyd, Kirsten Drotner, Shelley Goldman, Susan C. Herring, Meghan McDermott, Claudia Mitchell, Gitte Stald, Susannah Stern, Sandra Weber, Rebekah Willett
  achieving scientific literacy from purposes to practices: Critical Questions in STEM Education Valarie L. Akerson, Gayle A. Buck, 2020-11-05 This edited volume offers a crosscutting view of STEM and is comprised of work by scholars in science, technology, engineering, and mathematics education. It offers a view of STEM from the disciplines that comprise it, while adhering to the idea that STEM itself is an interdisciplinary treatment of all the associated disciplines in a meaningful way. This book raises and answers questions regarding the meaning of STEM education and research. This volume is divided into three sections: the first one describes the nature of the component disciplines of STEM. The next section presents work from leaders representing all STEM disciplines and deals with aspects such as K-12 and post-secondary education. The last section draws conclusions regarding the natures of the disciplines, challenges and advantages of STEM education in terms of theoretical and practical implications. The two final chapters compile arguments from the research chapters, describing themes in research results, and making recommendations for best STEM education practice, and examining areas for future research in STEM education.
  achieving scientific literacy from purposes to practices: Assessment-Centered Teaching Kathryn DiRanna, 2008-03-07 Accompanying CD-ROM contains forms referenced throughout the book.
  achieving scientific literacy from purposes to practices: STEM Education from Asia Tang Wee Teo, Aik-Ling Tan, Paul Teng, 2021-12-24 Asia is the largest continent in the world. Five out of the top ten high performing economies in the Programme for International Student Assessment (PISA) 2018 are located in Asia. Why do Asian students perform so well in STEM-related subjects? This book answers this by examining the STEM education policies and initiatives in Asian economies, as well as the training programmes undertaken by STEM teachers in Asia. The book is broken into four sections, each accompanied by a passage of commentary that summarizes the key takeaways of the chapters. Section one focuses on STEM policy environments and how various countries have developed policies that promote STEM as an integral part of national economic development. Section two focuses on STEM teacher education in the Philippines and Thailand, while section three focuses on STEM curriculum design, context, and challenges in four Asian economies. The fourth and final section focuses on presenting snapshots of STEM education research efforts in Malaysia, South Korea, and Singapore. Written by Asian academics, this book will provide valuable insights to policy makers, educators, and researchers interested in the topic of STEM education, especially in the Asian context. Chapters 7 and 11 of this book are freely available as a downloadable Open Access PDF under a Creative Commons Attribution-Non Commercial-No Derivatives 4.0 license available at http://www.taylorfrancis.com
  achieving scientific literacy from purposes to practices: Coteaching in International Contexts Colette Murphy, Kathryn Scantlebury, 2010-04-02 Coteaching is two or more teachers teaching together, sharing responsibility for meeting the learning needs of students and, at the same time, learning from each other. Working as collaborators on every aspect of instruction, coteachers plan, teach and evaluate lessons together. Over the past decade, because coteaching can be highly beneficial to both students and teachers it has become an increasingly important element of science teacher education and is expanding into other content areas and educational settings. This edited book brings together ten years' work on the research and the practice of coteaching and its impact on teaching and learning, predominantly in the sciences. It includes contributions from Europe, United States and Australia and presents an doverview of theory and practice common to most studies.
  achieving scientific literacy from purposes to practices: Designing Effective Distance and Blended Learning Environments in K-12 Driscoll III, Thomas F., 2021-11-12 It has quickly become apparent in the past year that online learning is not only an asset, but it is critical to the continued education of youth during times of crisis. However, districts and schools across the nation are in need of guidance and practical, research-backed approaches to distance and hybrid learning. The current COVID-19 crisis has demonstrated that effective learning in K-12 is possible, but many districts struggled and continue to struggle in achieving that reality. There is also the growing consensus that even if things “return to normal,” distance and blended learning strategies should continue to be employed in many ways across the K-12 environment. Designing Effective Distance and Blended Learning Environments in K-12 provides key insights into the ways that school districts and educators from across the world have effectively designed and implemented distance and blended learning approaches to enable and enhance student learning. The diverse collection of authors from various demographics and roles in school systems will benefit readers across a wide spectrum of school community stakeholders. There will also be an emphasis on how research and theory is put into practice, along with an honest discussion of what strategies and actions were successful as well as those that were less so. This book is essential for professionals and researchers working in the field of K-12 education, particularly superintendents, curriculum developers, professional learning designers, school principals, instructional technology specialists, and teachers, as well as administrators, researchers, academicians, and students interested in the effective practices being used in blended learning approaches.
  achieving scientific literacy from purposes to practices: Educational Curricula Jennifer N. Casey, 2008 In formal education, a curriculum (plural curricula) is the set of courses, and their content, offered at a school or university. As an idea, curriculum stems from the Latin word for race course, referring to the course of deeds and experiences through which children grow and mature in becoming adults. Crucial to the curriculum is the definition of the course objectives that usually are expressed as learning outcomes and normally include the program's assessment strategy. These outcomes and assessments are grouped as units (or modules), and, therefore, the curriculum comprises a collection of such units, each, in turn, comprising a specialised, specific part of the curriculum. So, a typical curriculum includes communications, numeracy, information technology, and social skills units, with specific, specialised teaching of each. This book presents research on educational curricula from around the world.
  achieving scientific literacy from purposes to practices: Using STEM-Focused Teacher Preparation Programs to Reimagine Elementary Education Cayton, Emily, Sanders, Miriam, Williams, John A., 2024-02-07 There has been an increasing issue in STEM education as many students lack interest and knowledge in STEM disciplines and fields. Given the high demand for STEM workers, and the projected growth of STEM fields, it is important to expose students to STEM education beginning as early as elementary school. Some K-6 programs are not preparing teacher candidates adequately for STEM content or skills, especially in engineering. Integrating these disciplines and practices throughout elementary education programs could result in more exposure for K-6 students. Using STEM-Focused Teacher Preparation Programs to Reimagine Elementary Education presents anecdotal stories of how elementary education programs have altered their content offerings, field experiences, and curricula to expand their teacher candidates’ knowledge and exposure to STEM disciplines and fields. Covering key topics such as diversity, teacher education, and technology integration, this premier reference source is ideal for industry professionals, policymakers, administrators of K-12 education, pre-service teachers, teacher educators, researchers, scholars, academicians, practitioners, instructors, and students.
  achieving scientific literacy from purposes to practices: Encyclopedia of Giftedness, Creativity, and Talent Barbara Kerr, 2009-06-15 Library Journal Best Reference 2009 Educators have begun to recognize that identifying and accommodating students who are slower to learn may leave behind those who learn rapidly and think creatively. The nature of intelligence, the sources of innovation, and the ways to nurture special abilities are now topics of great interest to scholars in a wide variety of disciplines and to the general public. Policymakers, ranging from school board members to leaders of nations, must also make practical decisions about how communities and societies will treat their brightest, most promising students. With more than 400 entries, these two volumes review research findings on giftedness, talent, and creativity and their effect on education, training, science and the arts, government policy, and everyday life. The Encyclopedia of Giftedness, Creativity, and Talent provides a balanced, objective assessment of the various perspectives on the nature of intelligence, innovation, and optimal states. This state-of-the-art resource covers all major facets of the field, including achievement motivation, artistic ability, creative personality, emotional intelligence, gender differences, genius, intelligence testing, learning styles, minority underrepresentation, multiple intelligences, musical ability, prodigies, scientists, self actualization, thinking skills, and more. Key Themes Assessment and Identification Creativity Studies Cultural Issues Education Eminent People Exceptionalities Intelligence Neuroscience and Genetics Populations Programs and Interventions Psychological Issues Talent Domains Theories and Models Key Features Provides a balanced and critical discussion of the controversies that have animated research and theory making Clarifies which grouping and instructional strategies promote the best outcomes in achievement and social/emotional development of gifted children Helps educators make informed decisions about the identification strategies and the curriculum models that best meet their students' needs Contains thousands of pertinent facts from the fields of education, psychology, sociology, and the arts Evaluates policies that have hindered gifted children and makes a persuasive case for appropriately challenging and differentiated education Examines how giftedness, creativity, and talent were defined in the past and how current meanings have emerged.
  achieving scientific literacy from purposes to practices: Designing Professional Development for Teachers of Science and Mathematics Susan Loucks-Horsley, Katherine E. Stiles, Susan Mundry, Nancy Love, Peter W. Hewson, 2009-11-24 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 development for mathematics and science educators demonstrates how to design professional development experiences for teachers that lead to improved student learning. Presenting an updated professional development (PD) planning framework, the third edition of the bestseller reflects recent research on PD design, underscores how beliefs and local factors can influence 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
  achieving scientific literacy from purposes to practices: Research on Technology Use in Multicultural Settings Tirupalavanam Ganesh, Anna W. Boriack, Jacqueline R. Stillisano, Trina J. Davis, Hersch C. Waxman, 2014-10-01 This book is the third volume in the series on Research in Educational Diversity and Excellence. The goal of this series is to bring issues of diversity and educational risk to the forefront of national attention in order to assist the nation’s diverse students at risk of failure to achieve academic excellence. This series focuses on critical issues in the education of linguistic and cultural minority students and those placed at risk by factors of race, poverty, and geographic location. The purpose of the present book is to summarize and discuss recent perspectives, research, and practices related to the use of educational technology in multicultural settings. Technology that is already ubiquitous in our daily lives brings a myriad of issues to the area of education. Although educational systems should be geared to address challenges appropriately, the systems should be designed and developed to provide opportunities to take advantage of technology use. This book is noteworthy in that it presents a variety of theoretical and practical considerations for technology use in diverse multicultural contexts. Consisting of 12 chapters, the book (a) proposes theoretical concerns for understanding technological learning environments today and envisions the potential impact of future technology use and (b) examines technology tools and models that have been used for interventions, programs, and projects and measures and documents specific outcomes and challenges involving complex interactions within low-income and languageminority families and students.
  achieving scientific literacy from purposes to practices: Valuing Assessment in Science Education: Pedagogy, Curriculum, Policy Deborah Corrigan, Richard Gunstone, Alister Jones, 2013-06-05 Assessment is a fundamental issue in research in science education, in curriculum development and implementation in science education as well as in science teaching and learning. This book takes a broad and deep view of research involving assessment in science education, across contexts and cultures (from whole countries to individual classrooms) and across forms and purposes (from assessment in the service of student learning to policy implications of system wide assessment). It examines the relationships between assessment, measurement and evaluation; explores assessment philosophies and practices in relation to curriculum and scientific literacy/learning; and details the relationships between assessment and science education policy. The third in a series, Valuing Assessment in Science Education has chapters from a range of international scholars from across the globe and staff from Monash University, King’s College London and University of Waikato. The two previous books in the series examined research relevant to the re-emergence of values in science education and teaching across the spectrum of science education as well as across cultural contexts through the professional knowledge of science teaching. This third book now moves to examine different aspects of generating understanding about what science is learnt, how it is learnt, and how it is valued. Valuing Assessment in Science Education will appeal to all those with some engagement with and/or use of research in science education, including research students, academics, curriculum development agencies, assessment authorities, and policy makers. It will also be of interest to all classroom science teachers who seek to keep abreast of the latest research and development and thinking in their area of professional concern.
ACHIEVING | English meaning - Cambridge Dictionary
ACHIEVING definition: 1. present participle of achieve 2. to succeed in finishing something or reaching an aim…. Learn more.

ACHIEVING Synonyms: 84 Similar and Opposite Words - Merriam-Webster
Synonyms for ACHIEVING: attaining, winning, gaining, making, obtaining, scoring, hitting, garnering; Antonyms of ACHIEVING: missing, losing, failing (at), falling short (of), failing, …

Achieving - definition of achieving by The Free Dictionary
1. to bring to a successful end; succeed in doing or accomplishing: The crackdown on speeders achieved its purpose. 2. to get or attain by effort: to achieve victory. 3. to accomplish some …

108 Synonyms & Antonyms for ACHIEVING | Thesaurus.com
Find 108 different ways to say ACHIEVING, along with antonyms, related words, and example sentences at Thesaurus.com.

ACHIEVE Definition & Meaning | Dictionary.com
Achieve definition: to bring to a successful end; carry through; accomplish.. See examples of ACHIEVE used in a sentence.

Achieve - Definition, Meaning & Synonyms | Vocabulary.com
If you achieve something, you've reached a goal. Achievements aren't accidents. If you stumble upon a treasure chest, you haven't achieved something; however, achieving a promotion to …

ACHIEVING definition in American English | Collins English …
ACHIEVING definition: to bring to a successful conclusion ; accomplish ; attain | Meaning, pronunciation, translations and examples in American English

What does ACHIEVING mean? - Definitions.net
Definition of ACHIEVING in the Definitions.net dictionary. Meaning of ACHIEVING. What does ACHIEVING mean? Information and translations of ACHIEVING in the most comprehensive …

Achieving - Meaning, Definition, Synonym & Antonym (2025)
Feb 26, 2025 · Achieving Means successfully reaching a goal, completing a task. It involves overcoming obstacles, making progress, and attaining desired outcomes. Whether in …

ACHIEVE Definition & Meaning - Merriam-Webster
achieve verb ə-ˈchēv achieved; achieving; achieves Synonyms of achieve transitive verb : to succeed at reaching or accomplishing (a goal, result, etc.) especially through effort

ACHIEVING | English meaning - Cambridge Dictionary
ACHIEVING definition: 1. present participle of achieve 2. to succeed in finishing something or reaching an …

ACHIEVING Synonyms: 84 Similar and Opposite Words
Synonyms for ACHIEVING: attaining, winning, gaining, making, obtaining, scoring, hitting, garnering; Antonyms …

Achieving - definition of achieving by The Free Diction…
1. to bring to a successful end; succeed in doing or accomplishing: The crackdown on speeders achieved its …

108 Synonyms & Antonyms for ACHIEVING | Thesaurus.com
Find 108 different ways to say ACHIEVING, along with antonyms, related words, and example …

ACHIEVE Definition & Meaning | Dictionary.com
Achieve definition: to bring to a successful end; carry through; accomplish.. See examples of …