Advertisement
| formative assessment examples for science: Science Formative Assessment, Volume 1 Page Keeley, 2015-09-09 Formative assessment informs the design of learning opportunities that take students from their existing ideas of science to the scientific ideas and practices that support conceptual understanding. Science Formative Assessment shows K-12 educators how to weave formative assessment into daily instruction. Discover 75 assessment techniques linked to the Next Generation Science Standards and give classroom practices a boost with: Descriptions of how each technique promotes learning Charts linking core concepts at each grade level to scientific practices Implementation guidance, such as required materials and student grouping Modifications for different learning styles Ideas for adapting techniques to other content areas |
| formative assessment examples for science: Uncovering Student Ideas in Science: 25 formative assessment probes Page Keeley, 2005 V. 1. Physical science assessment probes -- Life, Earth, and space science assessment probes. |
| formative assessment examples for science: Uncovering Student Ideas in Life Science Page Keeley, 2011 Author Page Keeley continues to provide KOCo12 teachers with her highly usable and popular formula for uncovering and addressing the preconceptions that students bring to the classroomOCothe formative assessment probeOCoin this first book devoted exclusively to life science in her Uncovering Student Ideas in Science series. Keeley addresses the topics of life and its diversity; structure and function; life processes and needs of living things; ecosystems and change; reproduction, life cycles, and heredity; and human biology. |
| formative assessment examples for science: Formative Assessment for Secondary Science Teachers Erin Marie Furtak, 2009-07-06 '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. |
| formative assessment examples for science: Formative Assessment for Secondary Science Teachers Erin Marie Furtak, 2009-06-17 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!--Publisher's website. |
| formative assessment examples for science: Responsive Teaching Harry Fletcher-Wood, 2018-05-30 This essential guide helps teachers refine their approach to fundamental challenges in the classroom. Based on research from cognitive science and formative assessment, it ensures teachers can offer all students the support and challenge they need – and can do so sustainably. Written by an experienced teacher and teacher educator, the book balances evidence-informed principles and practical suggestions. It contains: A detailed exploration of six core problems that all teachers face in planning lessons, assessing learning and responding to students Effective practical strategies to address each of these problems across a range of subjects Useful examples of each strategy in practice and accounts from teachers already using these approaches Checklists to apply each principle successfully and advice tailored to teachers with specific responsibilities. This innovative book is a valuable resource for new and experienced teachers alike who wish to become more responsive teachers. It offers the evidence, practical strategies and supportive advice needed to make sustainable, worthwhile changes. |
| formative assessment examples for science: Science Formative Assessment, Volume 1 Page Keeley, 2015-09-09 Newly Updated! Deepen students’ science knowledge through formative assessment. Formative assessment informs the design of learning opportunities that take students from their existing ideas of science to the scientific ideas and practices that support conceptual understanding. Page Keeley, a nationally known expert in science education, wrote Science Formative Assessment to help educators weave formative assessment into daily instruction and learning. In the second edition, the author provides many new examples, links the strategies to current research as well as the Framework for K-12 Science Education and Next Generation Science Standards, and even shows how these same techniques can be used across other disciplines. Teachers will appreciate 75 formative assessment classroom techniques (FACTs) that include: Descriptions of how each FACT promotes learning and informs instruction Charts linking K-12 core concepts and scientific practices to the 75 FACTs Implementation guidance, such as required materials and student grouping Modifications for different learners and grade spans Links to use in other content areas, including a brief example Use Science Formative Assessment with any science curriculum or state standards to improve and enhance teaching and learning in K-12 science classrooms. |
| formative assessment examples for science: Formative Assessment Margaret Heritage, 2010-06-14 A practical, in-depth guide to implementing formative assessment in your classroom! Formative assessment allows teachers to identify and close gaps in student understanding and move learning forward. This research-based book walks readers through every step of the process and offers illustrative examples across a range of subject areas and grade levels. This book explains how to: Clearly articulate learning progressions, learning goals, and success criteria Select strategies for assessment and provide quality feedback Engage students in self-assessment and self-management Create a classroom environment that values feedback as part of the learning process |
| formative assessment examples for science: Science Formative Assessment, Volume 2 Page Keeley, 2014-10-16 Deepen scientific understanding with formative assessment! Only by knowing what your students are thinking can you design learning opportunities that deepen content mastery and meet their individual needs. In this highly engaging resource, internationally respected expert Page Keeley shares 50 new techniques to pinpoint student understanding before, during, and after instruction. In addition to promoting best practices in the classroom, the techniques shared here support learning and link instruction to the Next Generation Science Standards. These flexible assessments can be used with any science curriculum, along with Practical strategies for using the techniques throughout the instruction cycle Considerations for implementation and suggestions for modification An explanation of how each technique promotes learning Examples of how the techniques can be used in different content areas An expert in the field of K-12 science education, Page Keeley is the former president of the National Science Teachers Association, a current Board Member of the National Science Education Leadership Association, and has seventeen best-selling books. Science Formative Assessment, Volume 2 contains a wealth of tools that encourage students to engage in practices such as scientific argumentation and discourse. By emphasizing the alignment of the FACT with Science and Engineering Practices, Keeley provides multiple ways for teachers to monitor more than the disciplinary core ideas being taught. — Susan German, Science Teacher Hallsville R-IV School District, MO Teachers everywhere are spending a lot of time and energy looking for ways to increase student achievement. Well, the answer is not a big secret, nor is it expensive. Fortunately, Page Keeley has an answer. Improved performance lies in using formative assessments as an integral aspect of a lesson. In this book, Keeley shows how 50 formative assessments can lead to greater student success in science. —Douglas Llewellyn, Professor St. John Fisher College, Rochester, NY Other Books from Corwin and Page Keeley: Keeley, Science Formative Assessment ISBN: 9781412941808 Keeley, Math Formative Assessment ISBN: 9781412968126 Keeley, Science Curriculum Topic Study ISBN: 9781412908924 |
| formative assessment examples for science: Uncovering Student Ideas in Astronomy Page Keeley, Cary Ivan Sneider, 2012 What do your students know-- or think they know-- about what causes night and day, why days are shorter in winter, and how to tell a planet from a star? Find out with this book on astronomy, the latest in NSTA' s popular Uncovering Student Ideas in Science series. The 45 astronomy probes provide situations that will pique your students' interest while helping you understand how your students think about key ideas related to the universe and how it operates. The book is organized into five sections: the Nature of Planet Earth; the Sun-Earth System; Modeling the Moon; Dynamic Solar System; and Stars, Galaxies, and the Universe. As the authors note, it' s not always easy to help students untangle mistaken ideas. Using this powerful set of tools to identify students' preconceptions is an excellent first step to helping your students achieve scientific understanding. |
| formative assessment examples for science: Formative Assessment & Standards-Based Grading Robert J. Marzano, 2011-10-27 Learn everything you need to know to implement an integrated system of assessment and grading. The author details the specific benefits of formative assessment and explains how to design and interpret three different types of formative assessments, how to track student progress, and how to assign meaningful grades. Detailed examples bring each concept to life, and chapter exercises reinforce the content. |
| formative assessment examples for science: Uncovering Student Ideas in Science: 25 new formative assessment probes Page Keeley, Joyce Tugel, 2009 Wouldn't it be helpful to know what your students' ideas are about a science concept before launching into a new lesson or unit? Uncovering Student Ideas in Science, Volume 4, offers 25 more formative assessment probes to help reveal students' preconceptions of fundamental concepts in science, bringing the total to 100 probes for the popular series by author Page Keeley. Teachers of grades K-12 will find short probes with grade-band specifics that provide easy-to-follow suggestions for addressing students' ideas by promoting learning through conceptual-change instruction. Volume 4 adds to the probes in physical, life, and Earth and space science with a new category called unifying principles. Also covered is a discussion on balancing formative assessment with summative assessment. |
| formative assessment examples for science: Common Formative Assessment Kim Bailey, Chris Jakicic, 2011-10-11 Teams that engage in designing, using, and responding to common formative assessments are more knowledgeable about their own standards, more assessment literate, and able to develop more strategies for helping all students learn. In this conversational guide, the authors offer tools, templates, and protocols to incorporate common formative assessments into the practices of a PLC to monitor and enhance student learning |
| formative assessment examples for science: The Knowledge Gap Natalie Wexler, 2020-08-04 The untold story of the root cause of America's education crisis--and the seemingly endless cycle of multigenerational poverty. It was only after years within the education reform movement that Natalie Wexler stumbled across a hidden explanation for our country's frustrating lack of progress when it comes to providing every child with a quality education. The problem wasn't one of the usual scapegoats: lazy teachers, shoddy facilities, lack of accountability. It was something no one was talking about: the elementary school curriculum's intense focus on decontextualized reading comprehension skills at the expense of actual knowledge. In the tradition of Dale Russakoff's The Prize and Dana Goldstein's The Teacher Wars, Wexler brings together history, research, and compelling characters to pull back the curtain on this fundamental flaw in our education system--one that fellow reformers, journalists, and policymakers have long overlooked, and of which the general public, including many parents, remains unaware. But The Knowledge Gap isn't just a story of what schools have gotten so wrong--it also follows innovative educators who are in the process of shedding their deeply ingrained habits, and describes the rewards that have come along: students who are not only excited to learn but are also acquiring the knowledge and vocabulary that will enable them to succeed. If we truly want to fix our education system and unlock the potential of our neediest children, we have no choice but to pay attention. |
| formative assessment examples for science: Seeing Students Learn Science National Academies of Sciences, Engineering, and Medicine, Division of Behavioral and Social Sciences and Education, Board on Testing and Assessment, Board on Science Education, Heidi Schweingruber, Alexandra Beatty, 2017-03-24 Science educators in the United States are adapting to a new vision of how students learn science. Children are natural explorers and their observations and intuitions about the world around them are the foundation for science learning. Unfortunately, the way science has been taught in the United States has not always taken advantage of those attributes. Some students who successfully complete their Kâ€12 science classes have not really had the chance to do science for themselves in ways that harness their natural curiosity and understanding of the world around them. The introduction of the Next Generation Science Standards led many states, schools, and districts to change curricula, instruction, and professional development to align with the standards. Therefore existing assessmentsâ€whatever their purposeâ€cannot be used to measure the full range of activities and interactions happening in science classrooms that have adapted to these ideas because they were not designed to do so. Seeing Students Learn Science is meant to help educators improve their understanding of how students learn science and guide the adaptation of their instruction and approach to assessment. It includes examples of innovative assessment formats, ways to embed assessments in engaging classroom activities, and ideas for interpreting and using novel kinds of assessment information. It provides ideas and questions educators can use to reflect on what they can adapt right away and what they can work toward more gradually. |
| formative assessment examples for science: Guide to Implementing the Next Generation Science Standards National Research Council, Division of Behavioral and Social Sciences and Education, Board on Science Education, Committee on Guidance on Implementing the Next Generation Science Standards, 2015-03-27 A Framework for K-12 Science Education and Next Generation Science Standards (NGSS) describe a new vision for science learning and teaching that is catalyzing improvements in science classrooms across the United States. Achieving this new vision will require time, resources, and ongoing commitment from state, district, and school leaders, as well as classroom teachers. Successful implementation of the NGSS will ensure that all K-12 students have high-quality opportunities to learn science. Guide to Implementing the Next Generation Science Standards provides guidance to district and school leaders and teachers charged with developing a plan and implementing the NGSS as they change their curriculum, instruction, professional learning, policies, and assessment to align with the new standards. For each of these elements, this report lays out recommendations for action around key issues and cautions about potential pitfalls. Coordinating changes in these aspects of the education system is challenging. As a foundation for that process, Guide to Implementing the Next Generation Science Standards identifies some overarching principles that should guide the planning and implementation process. The new standards present a vision of science and engineering learning designed to bring these subjects alive for all students, emphasizing the satisfaction of pursuing compelling questions and the joy of discovery and invention. Achieving this vision in all science classrooms will be a major undertaking and will require changes to many aspects of science education. Guide to Implementing the Next Generation Science Standards will be a valuable resource for states, districts, and schools charged with planning and implementing changes, to help them achieve the goal of teaching science for the 21st century. |
| formative assessment examples for science: 25 Quick Formative Assessments for a Differentiated Classroom Judith Dodge, 2009 Presents a variety of assessments, lesson plans, and activities for use across the curriculum. |
| formative assessment examples for science: Inquiry and the National Science Education Standards National Research Council, Center for Science, Mathematics, and Engineering Education, Committee on Development of an Addendum to the National Science Education Standards on Scientific Inquiry, 2000-05-03 Humans, especially children, are naturally curious. Yet, people often balk at the thought of learning scienceâ€the eyes glazed over syndrome. Teachers may find teaching science a major challenge in an era when science ranges from the hardly imaginable quark to the distant, blazing quasar. Inquiry and the National Science Education Standards is the book that educators have been waiting forâ€a practical guide to teaching inquiry and teaching through inquiry, as recommended by the National Science Education Standards. This will be an important resource for educators who must help school boards, parents, and teachers understand why we can't teach the way we used to. Inquiry refers to the diverse ways in which scientists study the natural world and in which students grasp science knowledge and the methods by which that knowledge is produced. This book explains and illustrates how inquiry helps students learn science content, master how to do science, and understand the nature of science. This book explores the dimensions of teaching and learning science as inquiry for K-12 students across a range of science topics. Detailed examples help clarify when teachers should use the inquiry-based approach and how much structure, guidance, and coaching they should provide. The book dispels myths that may have discouraged educators from the inquiry-based approach and illuminates the subtle interplay between concepts, processes, and science as it is experienced in the classroom. Inquiry and the National Science Education Standards shows how to bring the standards to life, with features such as classroom vignettes exploring different kinds of inquiries for elementary, middle, and high school and Frequently Asked Questions for teachers, responding to common concerns such as obtaining teaching supplies. Turning to assessment, the committee discusses why assessment is important, looks at existing schemes and formats, and addresses how to involve students in assessing their own learning achievements. In addition, this book discusses administrative assistance, communication with parents, appropriate teacher evaluation, and other avenues to promoting and supporting this new teaching paradigm. |
| formative assessment examples for science: Formative Assessment and Science Education Nigel Bell, B. Cowie, 2005-12-21 This work documents the findings of a research project which investigated the ways in which teachers and students used formative assessment to improve the teaching and learning of science in some New Zealand classrooms. It will be of interest to graduate students and researchers, as well as teacher educators, curriculum developers, and assessment specialists. |
| formative assessment examples for science: Classroom Assessment and the National Science Education Standards National Research Council, Division of Behavioral and Social Sciences and Education, Center for Education, Committee on Classroom Assessment and the National Science Education Standards, 2001-08-12 The National Science Education Standards address not only what students should learn about science but also how their learning should be assessed. How do we know what they know? This accompanying volume to the Standards focuses on a key kind of assessment: the evaluation that occurs regularly in the classroom, by the teacher and his or her students as interacting participants. As students conduct experiments, for example, the teacher circulates around the room and asks individuals about their findings, using the feedback to adjust lessons plans and take other actions to boost learning. Focusing on the teacher as the primary player in assessment, the book offers assessment guidelines and explores how they can be adapted to the individual classroom. It features examples, definitions, illustrative vignettes, and practical suggestions to help teachers obtain the greatest benefit from this daily evaluation and tailoring process. The volume discusses how classroom assessment differs from conventional testing and grading-and how it fits into the larger, comprehensive assessment system. |
| formative assessment examples for science: Uncovering Student Ideas in Science: 25 more formative assessment probes Page Keeley, Francis Eberle, Joyce Tugel, 2007 The popular features from Volume 1 are all here. The field-tested probes are short, easy to administer, and ready to reproduce. Teacher materials explain science content and suggest grade-appropriate ways to present information. But Volume 2 covers more life science and Earth and space science probes. Volume 2 also suggests ways to embed the probes throughout your instruction, not just when starting a unit or topic. |
| formative assessment examples for science: Designing Everyday Assessment in the Science Classroom , 2005 This book describes how middle school science teachers, in collaboration with a team of researchers, tried to improve their everyday assessment practices to enhance student learning. It discusses the challenges they faced, the differences among the teachers, and the personal nature of deep educational change. A product of CAPITAL (Classroom Assessment Project to Improve Teaching and Learning), a research effort supported by the National Science Foundation, this book: Uses classroom stories to show how teachers can use a variety of formative assessment techniques to answer questions they have about their teaching.; Provides real-life examples of teachers grappling with new practices at a personal level, in their own settings and in light of their own values and beliefs; Offers suggestions for designing professional development efforts that recognize the significant variation among teachers in how they go about changing their assessment practices ; Outlines principles and practices that must accompany change in the classroom if it is to be more than superficial. |
| formative assessment examples for science: The Feedback Loop Erin Marie Furtak, Howard M. Glasser, Zora M. Wolfe, 2016 The Feedback Loop describes a process by which you design formative assessments of what you do and collect a variety of forms of data. Then, the book shows you ways to actually use the information to improve your teaching. Written by veteran classroom teachers, the guide offers practical ideas for middle and high school teachers, regardless of discipline. The first chapters introduce the Feedback Loop framework; highlight the four elements of goals, tools, data, and inferences; and explore how to close the loop by connecting inferences and goals through feedback. Later chapters show how to use the full loop to inform your instruction. The book supports the Next Generation Science Standards and includes classroom vignettes that ground the ideas in real-life situations. |
| formative assessment examples for science: Checking for Understanding Douglas Fisher, Nancy Frey, 2015-12-18 A teacher presents a lesson, and at the end asks students if they understand the material. The students nod and say they get it. Later, the teacher is dismayed when many of the students fail a test on the material. Why aren’t students getting it? And, just as important, why didn’t the teacher recognize the problem? In Checking for Understanding, Douglas Fisher and Nancy Frey show how to increase students’ understanding with the help of creative formative assessments. When used regularly, formative assessments enable every teacher to determine what students know and what they still need to learn. Fisher and Frey explore a variety of engaging activities that check for and increase understanding, including interactive writing, portfolios, multimedia presentations, audience response systems, and much more. This new 2nd edition of Checking for Understanding has been updated to reflect the latest thinking in formative assessment and to show how the concepts apply in the context of Fisher and Frey’s work on gradual release of responsibility, guided instruction, formative assessment systems, data analysis, and quality instruction. Douglas Fisher and Nancy Frey are the creators of the Framework for Intentional and Targeted (FIT) Teaching™. They are also the authors of numerous ASCD books, including The Formative Assessment Action Plan: Practical Steps to More Successful Teaching and Learning and the best-selling Enhancing RTI: How to Ensure Success with Effective Classroom Instruction and Intervention. |
| formative assessment examples for science: Knowing What Students Know National Research Council, Division of Behavioral and Social Sciences and Education, Center for Education, Board on Testing and Assessment, Committee on the Foundations of Assessment, 2001-10-27 Education is a hot topic. From the stage of presidential debates to tonight's dinner table, it is an issue that most Americans are deeply concerned about. While there are many strategies for improving the educational process, we need a way to find out what works and what doesn't work as well. Educational assessment seeks to determine just how well students are learning and is an integral part of our quest for improved education. The nation is pinning greater expectations on educational assessment than ever before. We look to these assessment tools when documenting whether students and institutions are truly meeting education goals. But we must stop and ask a crucial question: What kind of assessment is most effective? At a time when traditional testing is subject to increasing criticism, research suggests that new, exciting approaches to assessment may be on the horizon. Advances in the sciences of how people learn and how to measure such learning offer the hope of developing new kinds of assessments-assessments that help students succeed in school by making as clear as possible the nature of their accomplishments and the progress of their learning. Knowing What Students Know essentially explains how expanding knowledge in the scientific fields of human learning and educational measurement can form the foundations of an improved approach to assessment. These advances suggest ways that the targets of assessment-what students know and how well they know it-as well as the methods used to make inferences about student learning can be made more valid and instructionally useful. Principles for designing and using these new kinds of assessments are presented, and examples are used to illustrate the principles. Implications for policy, practice, and research are also explored. With the promise of a productive research-based approach to assessment of student learning, Knowing What Students Know will be important to education administrators, assessment designers, teachers and teacher educators, and education advocates. |
| formative assessment examples for science: Embedded Formative Assessment Dylan Wiliam, 2017-10-20 Acknowledgments--Table of Contents--About the Author -- Introduction -- Chapter 1 -- Chapter 2 -- Chapter 3 -- Chapter 4 -- Chapter 5 -- Chapter 6 -- Chapter 7 -- Epilogue -- Appendix -- References and Resources |
| formative assessment examples for science: The New Art and Science of Classroom Assessment Robert J. Marzano, Jennifer S. Norford, Mike Ruyle, 2018 Part of The New Art and Science of Teaching series Shift to a new paradigm of classroom assessment that is more accurate, meaningful, and authentic. The New Art and Science of Classroom Assessment explores the inadequacies of traditional assessment methods and details how to use classroom assessment to its full potential. Step by step, the authors outline a clear path for transitioning to more holistic assessment methods that truly reflect course curriculum and student progress. Learn how you can develop authentic assessment for learning in the classroom: Explore a new perspective on effective assessment for learning, including classroom, interim, and year-end assessments (from formative assessment to summative assessment). Learn how to create a curriculum that provides clear guidance as to what should be assessed. Acquire strategies for assessing four general types of skills: (1) cognitive skills, (2) knowledge-application skills, (3) metacognitive skills, and (4) general behavior skills. Develop expertise with classroom assessment tools, such as the types of declarative content, selected response items, and short constructed response questions. Download free reproducible tables and checklists to assist in implementing new methods of assessment design. A joint publication of ASCD and Solution Tree Contents: Introduction Chapter 1: The Assessment-Friendly Curriculum Chapter 2: Proficiency Scales Chapter 3: Parallel Assessments Chapter 4: The Measurement Process and Different Types of Assessment Chapter 5: Summative Scores Chapter 6: Non-Subject-Specific Skills Chapter 7: Record Keeping and Reporting Epilogue Appendix A: Types of Declarative Content Appendix B: Types of Test Response Items References and Resources Books in The New Art and Science of Teaching series: The New Art and Science of Teaching The Handbook for the New Art and Science of Teaching The New Art and Science of Teaching Reading The New Art and Science of Teaching Writing The New Art and Science of Classroom Assessment |
| formative assessment examples for science: Formative Assessment Strategies for Enhanced Learning in Science, K-8 Elizabeth Hammerman, 2008-09-18 Hammerman focuses on the meaning and centrality of formative assessment, providing insights, examples, and ties to numerous individual initiatives to improve science experiences for students and to inspire better teaching for teachers. —Robert E. Yager, Professor of Science Education University of Iowa This book addresses the various assessments used in our schools and how they can be approached to improve learning. —Elizabeth Alvarez, Math and Science Coach Chicago Public Schools, IL Use formative assessment to guide successful teaching and learning in science! Proven to be one of the most powerful tools for promoting effective learning, formative assessment enables teachers to capture evidence of student thinking and learning and use that information to adjust instruction. In this concise resource, science educator Elizabeth Hammerman clearly outlines the formative assessment process and provides practical strategies for embedding assessments into the K–8 standards-based science curriculum. This research-based book demonstrates how student-centered assessment helps students assume more responsibility for what they learn and how they learn. Teachers can use the various models of formative assessments to monitor student progress and evaluate learning. The author guides readers through discussions, thought and reflection activities, analyses of assessment techniques, and applications to classroom practice. Ideal for teachers and science and curriculum specialists, this user-friendly resource provides all the necessary tools to: Assess student understanding using observation checklists, questioning strategies, notebooks, reports, graphic organizers, projects, and performance tasks Differentiate science instruction to reach all learners Use rubrics as a means of discovering student strengths and weaknesses Collect student data to inform instructional decisions With this easy-to-implement guide, any teacher can effectively use formative assessment strategies to enhance instruction and increase student achievement in science. |
| formative assessment examples for science: Handbook of Research on Formative Assessment in Pre-K Through Elementary Classrooms Martin, Christie, Polly, Drew, Lambert, Richard, 2019-12-06 Educators require constructive information that details their students’ comprehension and can help them to advance the learners' education. Accurate evaluation of students at all educational levels and the implementation of comprehensive assessment strategies are essential for ensuring student equality and academic success. The Handbook of Research on Formative Assessment in Pre-K Through Elementary Classrooms is an essential research publication that addresses gaps in the understanding of formative assessment and offers educators meaningful and comprehensive examples of formative assessment in the Pre-K through elementary grade levels. Covering an array of topics such as literacy, professional development, and educational technologies, this book is relevant for instructors, administrators, education professionals, educational policymakers, pre-service teachers, academicians, researchers, and students. |
| formative assessment examples for science: Progressing Students' Language Day by Day Alison L. Bailey, Margaret Heritage, 2018-07-26 Because content and language learning go hand in hand New content standards integrate content and language in ways prior standards have never done. That’s why it’s so critically important that teachers attend to both content and language development when introducing new subject matter, especially for English learners. Here’s your opportunity to get started tomorrow and every day thereafter: Alison Bailey and Margaret Heritage’s all-new Progressing Students’ Language Day by Day. What’s so utterly ground-breaking about this book is Bailey and Heritage’s Dynamic Language Learning Progression (DLLP) process: research-based tools for obtaining much deeper insight into a student’s language progress, then for identifying the most appropriate instructional steps to elevate language proficiency and content knowledge. Step by step, Bailey and Heritage describe how to Engage with students to advance their development of sophisticated, high-leverage language features for explaining content Use the DLLP approach to formative assessment, then plan your teaching in response to assessment evidence Examine words, sentences, and discourse --the three dimensions of language that are part of the DLLP process for cultivating language development Discover how leadership support and communities of practice (CoPs) can facilitate a successful and sustainable implementation of the DLLP process Listen more closely and uncover new ways to advance content learning with Progressing Students’ Language Day by Day directly by your side. “Alison Bailey and Margaret Heritage open our eyes to the often invisible and context-specific language demands embedded in content learning. Understanding the ubiq¬uitous and highly influential role of language in learning takes time and effort but leads to transformative practice. Progressing Students’ Language Learning Day by Day offers an insightful and concrete framework to begin this transformation.” — Paola Uccelli, Professor of Education, Harvard University |
| formative assessment examples for science: Mathematics Formative Assessment Page Keeley, Cheryl Rose Tobey, 2011-09-15 There is a substantive body of research that indicates formative assessment can significantly improve student learning. Yet, this same research shows that the features of formative assessment that impact student achievement are sadly missing from many classrooms (Black, et al., 2003). This book provides teachers with guidance and suggestions for using formative assessment to improve teaching and learning in the mathematics classroom, and identifies and describes practical techniques teachers can use to build a rich repertoire of formative assessment strategies. The acronym, FACT, is used to label the techniques included in this book. FACT stands for Formative Assessment Classroom Technique. Through the varied use of FACTs, explicitly tied to a purpose for gathering information about or promoting students' thinking and learning, teachers can focus on what works best for learning and design or modify lessons to fit the needs of the students--Provided by publisher. |
| formative assessment examples for science: A Framework for K-12 Science Education National Research Council, Division of Behavioral and Social Sciences and Education, Board on Science Education, Committee on a Conceptual Framework for New K-12 Science Education Standards, 2012-02-28 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. |
| formative assessment examples for science: Uncovering Student Ideas in Science Page Keeley, Francis Eberle, Joyce Tugel, 2007 |
| formative assessment examples for science: Uncovering Student Ideas in Science: Another 25 formative assessment probes Page Keeley, 2005 V. 1. Physical science assessment probes -- Life, Earth, and space science assessment probes. |
| formative assessment examples for science: Computer Science in K-12 Shuchi Grover, 2020-04 Coding teaches our students the essence of logical thinking and problem solving while also preparing them for a world in which computing is becoming increasingly pervasive. While there's excitement and enthusiasm about programming becoming an intrinsic part of K-12 curricula the world over, there's also growing anxiety about preparing teachers to teach effectively at all grade levels.This book strives to be an essential, enduring, practical guide for every K-12 teacher anywhere who is either teaching or planning to teach computer science and programming at any grade level. To this end, readers will discover:? An A-to-Z organization that affords comprehensive insight into teaching introductory programming.? 26 chapters that cover foundational concepts, practices and well-researched pedagogies related to teaching introductory programming as an integral part of K-12 computer science. Cumulatively these chapters address the two salient building blocks of effective teaching of introductory programming-what content to teach (concepts and practices) and how to teach (pedagogy).? Concrete ideas and rich grade-appropriate examples inspired by practice and research for classroom use.? Perspectives and experiences shared by educators and scholars who are actively practicing and/or examiningthe teaching of computer science and programming in K-12 classrooms. |
| formative assessment examples for science: Inside the black box Paul Black, Dylan Wiliam, 1998 Offers practical advice on using and improving assessment for learning in the classroom. |
| formative assessment examples for science: Formative Assessment for 3D Science Learning Erin Marie Furtak, 2023 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 |
| formative assessment examples for science: Oxford Textbook of Medical Education Kieran Walsh, 2016 Providing a comprehensive and evidence-based reference guide for those who have a strong and scholarly interest in medical education, the Oxford Textbook of Medical Education contains everything the medical educator needs to know in order to deliver the knowledge, skills, and behaviour that doctors need. The book explicitly states what constitutes best practice and gives an account of the evidence base that corroborates this. Describing the theoretical educational principles that lay the foundations of best practice in medical education, the book gives readers a through grounding in all aspects of this discipline. Contributors to this book come from a variety of different backgrounds, disciplines and continents, producing a book that is truly original and international. |
| formative assessment examples for science: Ambitious Science Teaching Mark Windschitl, Jessica Thompson, Melissa Braaten, 2020-08-05 2018 Outstanding Academic Title, Choice Ambitious Science Teaching outlines a powerful framework for science teaching to ensure that instruction is rigorous and equitable for students from all backgrounds. The practices presented in the book are being used in schools and districts that seek to improve science teaching at scale, and a wide range of science subjects and grade levels are represented. The book is organized around four sets of core teaching practices: planning for engagement with big ideas; eliciting student thinking; supporting changes in students’ thinking; and drawing together evidence-based explanations. Discussion of each practice includes tools and routines that teachers can use to support students’ participation, transcripts of actual student-teacher dialogue and descriptions of teachers’ thinking as it unfolds, and examples of student work. The book also provides explicit guidance for “opportunity to learn” strategies that can help scaffold the participation of diverse students. Since the success of these practices depends so heavily on discourse among students, Ambitious Science Teaching includes chapters on productive classroom talk. Science-specific skills such as modeling and scientific argument are also covered. Drawing on the emerging research on core teaching practices and their extensive work with preservice and in-service teachers, Ambitious Science Teaching presents a coherent and aligned set of resources for educators striving to meet the considerable challenges that have been set for them. |
| formative assessment examples for science: Register, Genre, and Style Douglas Biber, Susan Conrad, 2009-10-29 This book describes the most important kinds of texts in English and introduces the methodological techniques used to analyse them. Three analytical approaches are introduced and compared, describing a wide range of texts from the perspectives of register, genre and style. The primary focus of the book is on the analysis of registers. Part 1 introduces an analytical framework for studying registers, genre conventions, and styles. Part 2 provides detailed descriptions of particular text varieties in English, including spoken interpersonal varieties (conversation, university office hours, service encounters), written varieties (newspapers, academic prose, fiction), and emerging electronic varieties (e-mail, internet forums, text messages). Finally, Part 3 introduces advanced analytical approaches using corpora, and discusses theoretical concerns, such as the place of register studies in linguistics, and practical applications of register analysis. Each chapter ends with three types of activities: reflection and review activities, analysis activities, and larger project ideas. |
Log In - Formative
Forgot password? New to Formative? Create an account.
Formative | Real-Time Instruction
Formative helps teachers unlock additional superpowers, improve student engagement and accelerate learning. Start seeing real-time …
FORMATIVE Definition & Meaning - Merriam-Webster
The meaning of FORMATIVE is giving or capable of giving form : constructive. How to use formative in a sentence. …
Formative - Clever
Jul 23, 2019 · Formative is a webapp for classrooms that allows teachers to create engaging, live assignments that students answer on any device. The …
FORMATIVE | English meaning - Cambridge Dictionary
FORMATIVE definition: 1. relating to the time when someone or something is starting to develop in character, and …
Log In - Formative
Forgot password? New to Formative? Create an account.
Formative | Real-Time Instruction
Formative helps teachers unlock additional superpowers, improve student engagement and accelerate …
FORMATIVE Definition & Meaning - Merriam-Webster
The meaning of FORMATIVE is giving or capable of giving form : constructive. How to use formative in a sentence. …
Formative - Clever
Jul 23, 2019 · Formative is a webapp for classrooms that allows teachers to create engaging, live assignments …
FORMATIVE | English meaning - Cambridge Dictionary
FORMATIVE definition: 1. relating to the time when someone or something is starting to develop in character, and …
