NSTA Guide to School Science Facilities


Book Description

The National Science Teachers Association, in response to the emergence of new science curricula and the need for updated science facilities in the nation's public schools, convened a task force to develop guidelines for K-12 science facility design and use. This guide, a result of NSTA Task Force on Science Facilities and Equipment, includes information about planning facilities design; budget priorities; space considerations; general room and laboratory design; and furnishings for the laboratory/classroom specifically targeting K-5, middle, and high schools. It is designed to familiarize educators, administrators, and citizens with the stages of the planning process for new and renovated science facilities and provides specific, detailed information on many aspects of the planning and design phases. Additionally, chapters address current trends and future directions in science education and safety, accessibility, and legal guidelines. Appendices include discussions on solar energy for school facilities, equipment needs planning, checklists, a glossary of construction terms, and classroom dimensional considerations. (GR)




NSTA Guide to Planning School Science Facilities


Book Description

Provides guidance and tools for planning a school science facility, discussing general room design, budget, furnishings, and other related topics and discussing safety, accessibility, and legal guidelines.




The NSTA Quick-reference Guide to the NGSS, K-12


Book Description

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.




More Picture-perfect Science Lessons


Book Description

Teacher's handbook for teaching science.




Helping Students Make Sense of the World Using Next Generation Science and Engineering Practices


Book Description

When it’s time for a game change, you need a guide to the new rules. Helping Students Make Sense of the World Using Next Generation Science and Engineering Practices provides a play-by-play understanding of the practices strand of A Framework for K–12 Science Education (Framework) and the Next Generation Science Standards (NGSS). Written in clear, nontechnical language, this book provides a wealth of real-world examples to show you what’s different about practice-centered teaching and learning at all grade levels. The book addresses three important questions: 1. How will engaging students in science and engineering practices help improve science education? 2. What do the eight practices look like in the classroom? 3. How can educators engage students in practices to bring the NGSS to life? Helping Students Make Sense of the World Using Next Generation Science and Engineering Practices was developed for K–12 science teachers, curriculum developers, teacher educators, and administrators. Many of its authors contributed to the Framework’s initial vision and tested their ideas in actual science classrooms. If you want a fresh game plan to help students work together to generate and revise knowledge—not just receive and repeat information—this book is for you.







STEM Student Research Handbook


Book Description

A comprehensive resource for high school teachers and students, STEM Student Research Handbook outlines the various stages of large- scale research projects, enabling teachers to coach their students through the research process.




Argument-Driven Inquiry in Physical Science


Book Description

Are you interested in using argument-driven inquiry for middle school lab instruction but just aren’t sure how to do it? Argument-Driven Inquiry in Physical Science will provide you with both the information and instructional materials you need to start using this method right away. The book is a one-stop source of expertise, advice, and investigations to help physical science students work the way scientists do. The book is divided into two basic parts: 1. An introduction to the stages of argument-driven inquiry—from question identification, data analysis, and argument development and evaluation to double-blind peer review and report revision. 2. A well-organized series of 22 field-tested labs designed to be much more authentic for instruction than traditional laboratory activities. The labs cover four core ideas in physical science: matter, motion and forces, energy, and waves. Students dig into important content and learn scientific practices as they figure out everything from how thermal energy works to what could make an action figure jump higher. The authors are veteran teachers who know your time constraints, so they designed the book with easy-to-use reproducible student pages, teacher notes, and checkout questions. The labs also support today’s standards and will help your students learn the core ideas, crosscutting concepts, and scientific practices found in the Next Generation Science Standards. In addition, the authors offer ways for students to develop the disciplinary skills outlined in the Common Core State Standards. Many of today’s middle school teachers—like you—want to find new ways to engage students in scientific practices and help students learn more from lab activities. Argument-Driven Inquiry in Physical Science does all of this while also giving students the chance to practice reading, writing, speaking, and using math in the context of science.




Picture-Perfect Science Lessons


Book Description

In this newly revised and expanded 2nd edition of Picture-Perfect Science Lessons, classroom veterans Karen Ansberry and Emily Morgan, who also coach teachers through nationwide workshops, offer time-crunched elementary educators comprehensive background notes to each chapter, new reading strategies, and show how to combine science and reading in a natural way with classroom-tested lessons in physical science, life science, and Earth and space science.




Universal Design for Learning Science


Book Description

"This book is the result of more than a decade of work with teachers through the Quality Elementary Science Teaching professional development program. We used two frameworks that come together in powerful ways to support student learning in science -- the 5E Learning Cycle and Universal Design for Learning. Using these frameworks encourages teachers to rethink how they have typically approached lessons and to reframe them in ways that mirror how students learn, that provide depth and conceptual coherence, and that support the success of all learners. Implementing these frameworks doesn't require adopting a new curriculum, but working with the existing curricula and resources to identify barriers to learning and possible solutions -- in other words, using a sharper knife, a bigger fork, or a deeper spoon to more effectively deal with what's already on your plate! The information in this book will be useful to individual teachers seeking to improve their craft, or to groups of teachers collaborating to support student success in science. In particular, general educators and special educators who are co-teaching science may find valuable common ground in the ideas presented in the book. Even if you are familiar with these frameworks, we believe you will find something new within these pages"--