This comprehensive book provides a framework for designing and enacting 3D science assessments that center students' interests and support rigorous and equitable instruction (K-12)"--
This book places students center stage in the discussion of how we know what students know. Using formative assessment to understand student learning is a theme grounded in good teaching and good assessment!' - Jo Topps, Regional Director K-12 Alliance/WestEd 'This book incorporates current research and not only provides an explanation of the necessity of formative assessment, but offers a system for planning lessons and a variety of tools to implement formative assessment in the classroom' - Susan Leeds, Science Department Chair and Gifted Studies Teacher Howard Middle School, Winter Park, FL Research has shown that when teachers use formative assessments effectively, they have a clearer understanding of what students know and are better able to design instruction that meets learners' needs. This practical guide shows teachers how to create and implement formative assessments in their middle and high school science classrooms. Grounded in extensive and solid research, this guide covers all science content areas - physics/physical science, life science/biology, earth and space science, and chemistry - as well as five types of formative assessments: big idea questions, concept maps, evidence-to-explanation, predict-observe-explain, and multiple choice. Teachers will find additional support in: - Richly detailed, concrete examples of the five types of assessments - In-depth guidelines for implementing the assessments - Brief case studies with transcript excerpts that demonstrate how teachers have used formative assessments - Easy-to-use templates to help analyze lessons in current units and identify places for inserting formative assessments With this easy-to-use, hands-on guide, any teacher can learn how to use formative assessment strategies to improve student achievement in science.
The current wave of science education reforms emphasizes more equitable opportunities for students as they learn disciplinary core ideas and apply crosscutting concepts by engaging in the practices of scientists. Formative assessment—the assessment teachers and students conduct while learning is in progress—also needs to shift to support this vision. This book combines three-dimensional science learning, sociocultural theories of learning, and science for justice and equity to provide a comprehensive picture of formative assessment for today’s K–12 science classroom. Filled with practical examples and strategies, the author provides guidance for classroom teachers around formative assessment task design that centers students’ interests and builds on the resources they bring to school. The text explores the different enactment approaches teachers can use to prioritize and respond to students’ ideas as they are learning. It also offers approaches to, and resources for, professional learning that support teachers as they engage in formative assessment for ambitious science instruction. Book Features: Provides a framework for designing and enacting 3D science assessments that support both rigorous and equitable instruction. Advocates for formative assessment that evaluates the practices of scientific inquiry, as opposed to measuring the memorization of science content.Includes assessment tasks, samples from classroom practice, and transcriptions of classroom conversations with students.Offers guidance for providing students with helpful feedback to advance their learning, as well as suggestions for collaborating with colleagues.Shows how formative assessment can be enacted across classrooms to create opportunities to coordinate practice at a larger scale. “By writing Formative Assessment for 3D Science Learning, Professor Furtak has provided a generous resource for science teachers and school leaders. . . . She lets us see how the theory works. What a wonderful and empowering professional gift.” —From the Foreword by Lorrie A. Shepard, Distinguished Professor Emerita, University of Colorado Boulder
This book places students center stage in the discussion of how we know what students know. Using formative assessment to understand student learning is a theme grounded in good teaching and good assessment!' - Jo Topps, Regional Director K-12 Alliance/WestEd 'This book incorporates current research and not only provides an explanation of the necessity of formative assessment, but offers a system for planning lessons and a variety of tools to implement formative assessment in the classroom' - Susan Leeds, Science Department Chair and Gifted Studies Teacher Howard Middle School, Winter Park, FL Research has shown that when teachers use formative assessments effectively, they have a clearer understanding of what students know and are better able to design instruction that meets learners' needs. This practical guide shows teachers how to create and implement formative assessments in their middle and high school science classrooms. Grounded in extensive and solid research, this guide covers all science content areas - physics/physical science, life science/biology, earth and space science, and chemistry - as well as five types of formative assessments: big idea questions, concept maps, evidence-to-explanation, predict-observe-explain, and multiple choice. Teachers will find additional support in: - Richly detailed, concrete examples of the five types of assessments - In-depth guidelines for implementing the assessments - Brief case studies with transcript excerpts that demonstrate how teachers have used formative assessments - Easy-to-use templates to help analyze lessons in current units and identify places for inserting formative assessments With this easy-to-use, hands-on guide, any teacher can learn how to use formative assessment strategies to improve student achievement in science.
Covering physics/physical science, life science/biology, earth and space science, and chemistry, this research-based guide shows secondary teachers how to develop and use formative assessments to enhance learning in science.
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