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Packed with specific teaching suggestions--great for both seasoned educators and novice teachers. All three books show you how to convert administrators, school boards, and other decision-makers into strong allies for science education reform.
This must-have tool for applying the Standards in real classrooms has been fully revised for 21st century high schools. This best-selling practical guide demonstrates how you can bring to life the vision of the Standards for teaching, professional development, assessment, content, programs, and school systems. Throughout the book you'll learn ways to form productive partnerships for reform, inside and outside your building, with other education stakeholders.
The purposes of this guide are to demonstrate how to apply the National Science Education Standards to the real world of the middle school classroom and to serve as a tool for collaboration among principals, state and local administrators, parents, and school board members. Different sections focus on science teaching standards, professional development standards, assessment standards, content standards, program standards, and system standards. The unifying concepts and processes discussed in the content standards include science as inquiry, physical science, life science, earth and space science, science and technology, science in personal and social perspectives, and the history and nature of science. The appendices contain an account of the relevant history of the National Science Education Standards, the actual National Science Education Standards, and ideas about the design of middle school science facilities. (DDR)
Since the release of the first draft of the Next Generation Science Standards (NGSS), NSTA has been at the forefront in promoting the standards and helping science educators become familiar with and learn to navigate this exciting but complex document. Later, when the final version was released and states began adopting the standards, NSTA started to develop resources that would assist educators with their implementation. Along the way, NSTA learned that even the simplest of resources, like a one-page cheat sheet, can be extremely useful. Many of those tools are collected here, including * a two-page " cheat sheet" that describes the practices, core ideas, and crosscutting concepts that make up the three dimensions described in A Framework for K- 12 Science Education; * an " Inside the Box" graphic that spells out all of the individual sections of text that appear on a page of the NGSS; * a Venn diagram comparing the practices in NGSS, Common Core State Standards, Mathematics, and Common Core State Standards, English Language Arts; and * matrices showing how the NGSS are organized by topic and disciplinary core idea. This guide also provides the appropriate performance expectations; disciplinary core ideas; practices; crosscutting concepts; connections to engineering, technology, and applications of science; and connections to nature of science. It is designed to be used with the NGSS. The book' s emphasis is on easy. Find the parts of the standards most relevant to you, acquaint yourself with the format, and find out what each of the different parts means. The NSTA Quick-Reference Guides to the NGSS are also available in grade-specific versions-- one each for elementary, middle, and high school. These Quick-Reference Guides are indispensable to science teachers at all levels, as well as to administrators, curriculum developers, and teacher educators.
Not since the 2011 release of A Framework for K - 12 Science Education has a document held such promise and significance for the science education community as does the Next Generation Science Standards The NGSS aims to better prepare U.S. students for the rigor of career and college-level scientific study by stressing the importance and integration of the three dimensions: science and engineering practices, disciplinary core ideas, and crosscutting concepts. They will provide for a more integrated and cohesive approach to science instruction, leading to a more scientifically literate citizenry. However, the NGSS also marks a change in how we think about science instruction and the task at hand, the adoption of these new standards and their incorporation into instruction, will require a significant amount of support. The key to unlocking the full potential of the NGSS is a deep understanding of the interrelationship of its core ideas, scientific and engineering practices, and crosscutting concepts. This brief and easy-to-use Reaader's Guide offers teachers, principals, district and state administrators, anyone with a vested interest in improving the quality of science education, the tools they need to fully absorb the new standards and begin to implement them, effectively, into classroom practices.
Demonstrates how you can carry the vision of the Standards - for teaching, professional development, assessment, content, program, and system - into the real world of your classroom and school.
Since the release of the first draft of the Next Generation Science Standards (NGSS), NSTA has been at the forefront in promoting the standards and helping science educators become familiar with and learn to navigate this exciting but complex document. Later, when the final version was released and states began adopting the standards, NSTA started to develop resources that would assist educators with their implementation. Along the way, NSTA learned that even the simplest of resources, like a one-page cheat sheet, can be extremely useful. Many of those tools are collected here, including * a two-page " cheat sheet" that describes the practices, core ideas, and crosscutting concepts that make up the three dimensions described in A Framework for K- 12 Science Education; * an " Inside the Box" graphic that spells out all of the individual sections of text that appear on a page of the NGSS; * a Venn diagram comparing the practices in NGSS, Common Core State Standards, Mathematics, and Common Core State Standards, English Language Arts; and * matrices showing how the NGSS are organized by topic and disciplinary core idea. This guide also provides the appropriate performance expectations; disciplinary core ideas; practices; crosscutting concepts; connections to engineering, technology, and applications of science; and connections to nature of science. It is designed to be used with the NGSS. The NSTA Quick-Reference Guides to the NGSS are also available in grade-specific versions-- one each for middle and high school-- plus a comprehensive K-12 edition. The four Quick-Reference Guides are indispensable to science teachers at all levels, as well as to administrators, curriculum developers, and teacher educators.
Contains NSTA journal articles listed in the bibliographies from the three books, Pathways to the sciences standards covering elementary, middle, and high school levels.
What do you get when you bring together two of NSTA’s bestselling authors to ponder ways to deepen students’ conceptual understanding of science? A fascinating combination of deep thinking about science teaching, field-tested strategies you can use in your classroom immediately, and personal vignettes all educators can relate to and apply themselves. Teaching for Conceptual Understanding in Science is by Richard Konicek-Moran, a researcher and professor who wrote the Everyday Science Mysteries series, and Page Keeley, a practitioner and teacher educator who writes the Uncovering Student Ideas in Science series. Written in an appealing, conversational style, this new book explores where science education has been and where it’s going; emphasizes how knowing the history and nature of science can help you engage in teaching for conceptual understanding and conceptual change; stresses the importance of formative assessment as a pathway to conceptual change; and provides a bridge between research and practice. This is the kind of thought-provoking book that can truly change the way you teach. Whether you read each chapter in sequence or start by browsing the topics in the vignettes, Konicek-Moran and Keeley will make you think—really think—about the major goal of science education in the 21st century: to help students understand science at the conceptual level so they can see its connections to other fields, other concepts, and their own lives.