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A Strategy for Assessing Science offers strategic advice on the perennial issue of assessing rates of progress in different scientific fields. It considers available knowledge about how science makes progress and examines a range of decision-making strategies for addressing key science policy concerns. These include avoiding undue conservatism that may arise from the influence of established disciplines; achieving rational, high-quality, accountable, and transparent decision processes; and establishing an appropriate balance of influence between scientific communities and agency science managers. A Strategy for Assessing Science identifies principles for setting priorities and specific recommendations for the context of behavioral and social research on aging.
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
This is a one-stop guide for assessing students' science learning and incorporating methods for embedding formative and summative assessment throughout any science unit.
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
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.
A resource for administrators andf staff developers interseted in designing professional development programs, and for science teachers looking for techniques and examples of classroom-based assessments.
Recent government publications like "Benchmarks for Scientific Literacy" and "Science for all Americans" have given teachers a mandate for improving science education in America. What we know about how learners construct meaning--particularly in the natural sciences--has undergone a virtual revolution in the past 25 years. Teachers, as well as researchers, are now grappling with how to better teach science, as well as how to assess whether students are learning. Assessing Science Understanding is a companion volume to Teaching Science for Understanding, and explores how to assess whether learning has taken place. The book discusses a range of promising new and practical tools for assessment including concept maps, vee diagrams, clinical interviews, problem sets, performance-based assessments, computer-based methods, visual and observational testing, portfolios, explanatory models, and national examinations.
Focus on frequent, accurate feedback with this newly expanded guide to understanding assessment. Field-tested and classroom ready, it's designed to help you reinforce productive learning habits while gauging your lessons' effectiveness. The book opens with an up-to-date discussion of assessment theory, research, and uses. Then comes a wealth of sample assessment activities (nearly 50 in all, including 15 new ones) in biology, chemistry, physics, and Earth science. You'll like the activities' flexibility. Some are short tasks that zero in on a few specific process skills; others are investigations involving a variety of skills you can cover in one or two class periods; and still others are extended, in-depth investigations that take several weeks to complete. Keyed to the U.S. National Science Education Standards, the activities include reproducible task sheets and scoring rubrics. All are ideal for helping your students reflect on their own learning during science labs.
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.