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"This book comes at just the right time, as teachers are being encouraged to re-examine current approaches to science instruction." -Lynn Rankin, Director, Institute for Inquiry, Exploratorium "Easy to read and comprehend with very explicit examples, it will be foundational for classroom teachers as they journey from novice teacher of science to expert." -Jo Anne Vasquez, Ph.D., Past President of the National Science Teachers Association "Teaching Science for Understanding is a comprehensive, exquisitely written guide and well-illustrated resource for high quality teaching and learning of inquiry-based science." -Hubert M. Dyasi, Ph.D., Professor of Science, City College and City University of New York Even though there is an unending supply of science textbooks, kits, and other resources, the practice of teaching science is more challenging than simply setting up an experiment. In Teaching Science for Understanding in Elementary and Middle Schools, Wynne Harlen focuses on why developing understanding is essential in science education and how best to engage students in activities that deepen their curiosity about the world and promote enjoyment of science. Teaching Science for Understanding in Elementary and Middle Schools centers on how to build on the ideas your students already have to cultivate the thinking and skills necessary for developing an understanding of the scientific aspects of the world, including: helping students develop and use the skills of investigation drawing conclusions from data through analyzing, interpreting, and explaining creating classrooms that encourage students to explain and justify their thinking asking productive questions to support students' understanding. Through classroom vignettes, examples, and practical suggestions at the end of each chapter, Wynne provides a compelling vision of what can be achieved through science education...and strategies that you can implement in your classroom right now.
Teaching Science in Elementary and Middle School offers in-depth information about the fundamental features of project-based science and strategies for implementing the approach. In project-based science classrooms students investigate, use technology, develop artifacts, collaborate, and make products to show what they have learned. Paralleling what scientists do, project-based science represents the essence of inquiry and the nature of science. Because project-based science is a method aligned with what is known about how to help all children learn science, it not only helps students learn science more thoroughly and deeply, it also helps them experience the joy of doing science. Project-based science embodies the principles in A Framework for K-12 Science Education and the Next Generation Science Standards. Blending principles of learning and motivation with practical teaching ideas, this text shows how project-based learning is related to ideas in the Framework and provides concrete strategies for meeting its goals. Features include long-term, interdisciplinary, student-centered lessons; scenarios; learning activities, and "Connecting to Framework for K–12 Science Education" textboxes. More concise than previous editions, the Fourth Edition offers a wealth of supplementary material on a new Companion Website, including many videos showing a teacher and class in a project environment.
This is the eBook of the printed book and may not include any media, website access codes, or print supplements that may come packaged with the bound book. Substantially rewritten to focus on inquiry teaching and learning as espoused in the National Science Education Standards, the new edition of Science in Elementary Education: Methods, Concepts, and Inquiries will prepare pre-service teachers to plan, facilitate, adapt, and assess inquiry experiences consistent with today’s science classroom. It accomplishes this by implementing the 6E model of inquiry teaching, addressing the planning and needs of inquiry teaching classrooms, and describing the materials teachers need to get up and running. This practical text includes over 350 Teaching Tips throughout and Twelve Inquiry Units that model constructivist applications, build conceptual knowledge, and provide a bank of classroom-tested lessons to use in science classrooms.
What is science for a child? How do children learn about science and how to do science? Drawing on a vast array of work from neuroscience to classroom observation, Taking Science to School provides a comprehensive picture of what we know about teaching and learning science from kindergarten through eighth grade. By looking at a broad range of questions, this book provides a basic foundation for guiding science teaching and supporting students in their learning. Taking Science to School answers such questions as: When do children begin to learn about science? Are there critical stages in a child's development of such scientific concepts as mass or animate objects? What role does nonschool learning play in children's knowledge of science? How can science education capitalize on children's natural curiosity? What are the best tasks for books, lectures, and hands-on learning? How can teachers be taught to teach science? The book also provides a detailed examination of how we know what we know about children's learning of scienceâ€"about the role of research and evidence. This book will be an essential resource for everyone involved in K-8 science educationâ€"teachers, principals, boards of education, teacher education providers and accreditors, education researchers, federal education agencies, and state and federal policy makers. It will also be a useful guide for parents and others interested in how children learn.
A broad review of science and ways of teaching science, emphasizing science, technology, and society, including extensive treatment of ecology, environment, and energy. Organized in parallel A & B chapters?"A" chapters present science background, fundamental concepts, principles, and illustrations; "B" chapters contain specific teaching methods.
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.
Your Science Classroom: Becoming an Elementary / Middle School Science Teacher, by authors M. Jenice "Dee" Goldston and Laura Downey, is a core teaching methods textbook for use in elementary and middle school science methods courses. Designed around a practical, "practice-what-you-teach" approach to methods instruction, the text is based on current constructivist philosophy, organized around 5E inquiry, and guided by the National Science Education Teaching Standards.
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.
In the best science classrooms, teachers see learning through the eyes of their students, and students view themselves as explorers. But with so many instructional approaches to choose from—inquiry, laboratory, project-based learning, discovery learning—which is most effective for student success? In Visible Learning for Science, the authors reveal that it’s not which strategy, but when, and plot a vital K-12 framework for choosing the right approach at the right time, depending on where students are within the three phases of learning: surface, deep, and transfer. Synthesizing state-of-the-art science instruction and assessment with over fifteen years of John Hattie’s cornerstone educational research, this framework for maximum learning spans the range of topics in the life and physical sciences. Employing classroom examples from all grade levels, the authors empower teachers to plan, develop, and implement high-impact instruction for each phase of the learning cycle: Surface learning: when, through precise approaches, students explore science concepts and skills that give way to a deeper exploration of scientific inquiry. Deep learning: when students engage with data and evidence to uncover relationships between concepts—students think metacognitively, and use knowledge to plan, investigate, and articulate generalizations about scientific connections. Transfer learning: when students apply knowledge of scientific principles, processes, and relationships to novel contexts, and are able to discern and innovate to solve complex problems. Visible Learning for Science opens the door to maximum-impact science teaching, so that students demonstrate more than a year’s worth of learning for a year spent in school.