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| uncovering student ideas in science volume 3: 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. |
| uncovering student ideas in science volume 3: Uncovering Student Ideas in Physical Science, Volume 1 Page D. Keeley, Rand Harrington, 2010-05-15 This is a must-have book if you're going to tackle the challenging concepts of force and motion in your classroom. -- |
| uncovering student ideas in science volume 3: Uncovering Student Ideas in Life Science, Volume 1 Page D. Keeley, 2016-06-06 Winner of the Distinguished Achievement Award from Association of Educational Publishers! Author Page Keeley continues to provide K–12 teachers with her highly usable and popular formula for uncovering and addressing the preconceptions that students bring to the classroom—the formative assessment probe—in this first book devoted exclusively to life science in her Uncovering Student Ideas in Science series. In this volume, 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. Using the probes as diagnostic tools that identify and analyze students’ preconceptions, teachers can easily move students from where they are in their current thinking to where they need to be to achieve scientific understanding. At the same time, use of the probes deepens the teacher’s understanding of the subject matter, suggests instructional implications, and expands assessment literacy. Using the student-learning data gained through the probes to inform teaching and learning is what makes the probes formative. Each probe is supported by extensive Teacher Notes, which provide background information on the purpose of the probes, related concepts, explanations of the life science ideas being taught, related ideas in the national science standards, research on typical student misconceptions in life science, and suggestions for instruction and assessment. |
| uncovering student ideas in science volume 3: Uncovering Student Ideas in Primary Science, Volume 1 Page D. Keeley, 2013-09-15 2014 Winner of the Distinguished Achievement Award from PreK-12 Learning Group, Association of American Publishers! What ideas do young children bring to their science learning, and how does their thinking change as they engage in “science talk”? Find out using the 25 field-tested probes in the newest volume of Page Keeley’s bestselling Uncovering Student Ideas in Science series, the first targeted to grades K–2. This teacher-friendly book is: • Tailored to your needs. The content is geared specifically for the primary grades, with an emphasis on simple vocabulary as well as drawing and speaking (instead of writing). The format of the student pages uses minimal text and includes visual representations of familiar objects, phenomena, or ideas. • Focused on making your lessons more effective. The assessment probes engage youngsters and encourage “science talk” while letting you identify students’ preconceptions before beginning a lesson or monitor their progress as they develop new scientific explanations. • Applicable to a range of science concepts. This volume offers 8 life science probes, 11 physical science probes, and 6 Earth and space science probes that target K–2 disciplinary core ideas. • Ready to use. The book provides grade-appropriate reproducible pages for your students and detailed teacher notes for you, including clear and concise explanations, relevant research, suggestions for instruction, and connections to national standards. Uncovering Student Ideas in Primary Science is an invaluable resource for classroom and preservice teachers and professional development providers. This age-appropriate book will help you teach more effectively by starting with students’ ideas and adapting instruction to support conceptual change. |
| uncovering student ideas in science volume 3: Uncovering Student Thinking in Mathematics Cheryl M. Rose, Leslie Minton, Carolyn Arline, 2006-12-20 Uncovering Student Thinking in Mathematics shows us ways to listen and observe children and their mathematical understandings so we can find better ways to help them take their next learning steps. This book is a gift to educators who ′seek to understand before being understood.′ —From the Foreword by Anne Davies A fresh and unique resource for mathematics teachers who recognize the importance of carefully establishing the starting points of instruction in terms of what students already know. The collection of assessment probes is inventive, engaging for students, and invaluable for teachers. —Richard H. Audet, Associate Professor, Roger Williams University Use formative assessment probes to take the guesswork out of mathematics instruction and improve learning! Students learn at varying rates, and if a misconception in mathematics develops early, it may be carried from year to year and obstruct a student′s progress. To identify fallacies in students′ preconceived ideas, Uncovering Student Thinking in Mathematics offers educators a powerful diagnostic technique in the form of field-tested assessment probes—brief, easily administered activities to determine students′ thinking on core mathematical concepts. Designed to question students′ conceptual knowledge and reveal common understandings and misunderstandings, the probes generate targeted information for modifying mathematics instruction, allowing teachers to build on students′ existing knowledge and individually address their identified difficulties. Linked to National Council of Teachers of Mathematics standards, this invaluable handbook assists educators with: 25 ready-to-use mathematical probes Teacher guides for implementing each probe at any grade level Examples of typical obstacles and faulty thinking demonstrated by students This rich resource combines standards, educational research findings, and practical craft knowledge to help teachers deliver informed instruction that strengthens all students′ learning and achievement in mathematics. |
| uncovering student ideas in science volume 3: 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. |
| uncovering student ideas in science volume 3: Uncovering Student Thinking About Mathematics in the Common Core, Grades K–2 Cheryl Rose Tobey, Emily R. Fagan, 2013-05-31 Get to the core of your students’ understanding of math! Back by popular demand, Cheryl Tobey and new coauthor Emily Fagan bring you 25 entirely new formative assessment probes—this time specifically for Grades K–2 and directly aligned to the Common Core. Thousands of teachers have already discovered that using probes may be the single-best way to identify students’ understandings and misunderstandings of key math concepts and then follow-up with the most appropriate instructional choices. Organized by strand, the probes will enable you to: Objectively evaluate each child’s prior basic numeracy and math knowledge Systematically address common mistakes and obstacles before they become long-term problems Help students integrate new mathematical ideas and immediately pinpoint areas of struggle Plan targeted instruction that builds on students’ current understandings while addressing their identified difficulties With the help of these probes, K–2 teachers will eliminate once and for all the perception some kids just aren’t good at math and put all students on the path of lifelong proficiency. Tobey and Fagan provide both a roadmap and GPS for navigating the Common Core Standards for Mathematics. In a time when teachers are asked to do more and more, this is a fabulous resource to guide instruction that will meet the needs of individual students. I was so impressed with the content, I found myself taking copious notes as I read. —Roxie R. Ahlbrecht, Math Intervention Specialist Lowell MST, Sioux Falls, SD These probes get to the heart of the Common Core Standards. The Teacher Notes provide valuable guidance on interpreting student results and using the information to inform instruction. —Donna Boucher, K–5 Math Instructional Coach Morton Ranch Elementary School, Katy ISD, Katy, TX |
| uncovering student ideas in science volume 3: Social Bodies David G. Horn, 1994-11-14 Using as his example post-World War I Italy and the government's interest in the size, growth rate, and vitality of its national population, David Horn suggests a genealogy for our present understanding of procreation as a site for technological intervention and political contestation. Social Bodies looks at how population and reproductive bodies came to be the objects of new sciences, technologies, and government policies during this period. It examines the linked scientific constructions of Italian society as a body threatened by the disease of infertility, and of women and men as social bodies--located neither in nature nor in the private sphere, but in that modern domain of knowledge and intervention carved out by statistics, sociology, social hygiene, and social work. Situated at the intersection of anthropology, cultural studies, and feminist studies of science, the book explores the interrelated factors that produced the practices of reason we call social science and social planning. David Horn draws on many sources to analyze the discourses and practices of social experts, the resistance these encountered, and the often unintended effects of the new objectification of bodies and populations. He shows how science, while affirming that maternity was part of woman's nature, also worked to remove reproduction from the domain of the natural, making it an object of technological intervention. This reconstitution of bodies through the sciences and technologies of the social, Horn argues, continues to have material consequences for women and men throughout the West. |
| uncovering student ideas in science volume 3: Uncovering Student Thinking in Mathematics, Grades K-5 Cheryl Rose Tobey, Leslie Minton, 2010-10-04 This book provides 25 easily administered assessments of learners' math knowledge that help teachers monitor learning in real time and improve all students' math skills. |
| uncovering student ideas in science volume 3: Uncovering Student Ideas in Earth and Environmental Science Page Keeley, Laura Tucker, 2016 If you' re new to formative assessment probes, you' ll love this timely addition to the bestselling Uncovering Student Ideas in Science series. Authors Page Keeley and Laura Tucker give you 32 engaging questions, or probes, that can reveal what your students already know-- or think they know-- about core Earth and environmental science concepts. Armed with those insights, you can use the probes' teacher notes to adjust your approach and present the science in grade-appropriate ways so students will learn the content accurately. If you' re among the thousands of educators who love the Uncovering Student Ideas in Science series and crave probes specifically about Earth and environmental science, you' re in luck. The probes are organized into four sections: land and water; water cycle, weather, and climate; Earth history, weathering and erosion, and plate tectonics; and natural resources, pollution, and human impact. The 10th book in this wildly popular, award-winning series offers field-tested teacher materials that provide science background and link to national standards, including the Next Generation Science Standards. The new probes are short, ready to reproduce, and easy to use. Why wait? It' s time to help your students demystify why the ocean is salty, how old the Earth is, and which direction water swirls when it goes down the drain. |
| uncovering student ideas in science volume 3: 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. |
| uncovering student ideas in science volume 3: Travel Narratives in Translation, 1750-1830 Alison Martin, Susan Pickford, 2013-05-07 This book examines how non-fictional travel accounts were rewritten, reshaped, and reoriented in translation between 1750 and 1850, a period that saw a sudden surge in the genre's popularity. It explores how these translations played a vital role in the transmission and circulation of knowledge about foreign peoples, lands, and customs in the Enlightenment and Romantic periods. The collection makes an important contribution to travel writing studies by looking beyond metaphors of mobility and cultural transfer to focus specifically on what happens to travelogues in translation. Chapters range from discussing essential differences between the original and translated text to relations between authors and translators, from intra-European narratives of Grand Tour travel to scientific voyages round the world, and from established male travellers and translators to their historically less visible female counterparts. Drawing on European travel writing in English, French, German, Spanish, and Portuguese, the book charts how travelogues were selected for translation; how they were reworked to acquire new aesthetic, political, or gendered identities; and how they sometimes acquired a radically different character and content to meet the needs and expectations of an emergent international readership. The contributors address aesthetic, political, and gendered aspects of travel writing in translation, drawing productively on other disciplines and research areas that encompass aesthetics, the history of science, literary geography, and the history of the book. |
| uncovering student ideas in science volume 3: Making Thinking Visible Ron Ritchhart, Mark Church, Karin Morrison, 2011-03-25 A proven program for enhancing students' thinking and comprehension abilities Visible Thinking is a research-based approach to teaching thinking, begun at Harvard's Project Zero, that develops students' thinking dispositions, while at the same time deepening their understanding of the topics they study. Rather than a set of fixed lessons, Visible Thinking is a varied collection of practices, including thinking routines?small sets of questions or a short sequence of steps?as well as the documentation of student thinking. Using this process thinking becomes visible as the students' different viewpoints are expressed, documented, discussed and reflected upon. Helps direct student thinking and structure classroom discussion Can be applied with students at all grade levels and in all content areas Includes easy-to-implement classroom strategies The book also comes with a DVD of video clips featuring Visible Thinking in practice in different classrooms. |
| uncovering student ideas in science volume 3: That Hideous Strength C.S. Lewis, 1996-10 Satirical fantasy featuring the interplanetary adventures of the fabulous Dr. Ransom. |
| uncovering student ideas in science volume 3: The New Teacher Book Terry Burant, Linda Christensen, Kelley Dawson Salas, Stephanie Walters, 2010 Teaching is a lifelong challenge, but the first few years in the classroom are typically a teacher's hardest. This expanded collection of writings and reflections offers practical guidance on how to navigate the school system, form rewarding relationships with colleagues, and connect in meaningful ways with students and families from all cultures and backgrounds. |
| uncovering student ideas in science volume 3: Neural Networks and Qualitative Physics Jean-Pierre Aubin, 1996-03-29 This book is devoted to some mathematical methods that arise in two domains of artificial intelligence: neural networks and qualitative physics. Professor Aubin makes use of control and viability theory in neural networks and cognitive systems, regarded as dynamical systems controlled by synaptic matrices, and set-valued analysis that plays a natural and crucial role in qualitative analysis and simulation. This allows many examples of neural networks to be presented in a unified way. In addition, several results on the control of linear and nonlinear systems are used to obtain a learning algorithm of pattern classification problems, such as the back-propagation formula, as well as learning algorithms of feedback regulation laws of solutions to control systems subject to state constraints. |
| uncovering student ideas in science volume 3: Uncovering Student Ideas in Science, Volume 3 , 2008 |
| uncovering student ideas in science volume 3: Understanding Childrens Ideas in Science Page Keeley, Edward M. Walsh, Jo Williams (Educator), 2021-12 |
| uncovering student ideas in science volume 3: 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, 2012-03-28 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. |
| uncovering student ideas in science volume 3: Look Both Ways Jason Reynolds, 2019-10-08 A National Book Award Finalist Coretta Scott King Author Honor Book UK Carnegie Medal winner An NPR Favorite Book of 2019 A New York Times Best Children’s Book of 2019 A Time Best Children’s Book of 2019 A Today Show Best Kids’ Book of 2019 A Washington Post Best Children’s Book of 2019 A School Library Journal Best Middle Grade Book of 2019 A Publishers Weekly Best Book of 2019 A Kirkus Reviews Best Middle Grade Book of 2019 “As innovative as it is emotionally arresting.” —Entertainment Weekly From National Book Award finalist and #1 New York Times bestselling author Jason Reynolds comes a novel told in ten blocks, showing all the different directions kids’ walks home can take. This story was going to begin like all the best stories. With a school bus falling from the sky. But no one saw it happen. They were all too busy— Talking about boogers. Stealing pocket change. Skateboarding. Wiping out. Braving up. Executing complicated handshakes. Planning an escape. Making jokes. Lotioning up. Finding comfort. But mostly, too busy walking home. Jason Reynolds conjures ten tales (one per block) about what happens after the dismissal bell rings, and brilliantly weaves them into one wickedly funny, piercingly poignant look at the detours we face on the walk home, and in life. |
| uncovering student ideas in science volume 3: Teaching for Conceptual Understanding in Science Richard Konicek-Moran, Page D. Keeley, 2016-06-01 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. |
| uncovering student ideas in science volume 3: Mathematics for Machine Learning Marc Peter Deisenroth, A. Aldo Faisal, Cheng Soon Ong, 2020-04-23 The fundamental mathematical tools needed to understand machine learning include linear algebra, analytic geometry, matrix decompositions, vector calculus, optimization, probability and statistics. These topics are traditionally taught in disparate courses, making it hard for data science or computer science students, or professionals, to efficiently learn the mathematics. This self-contained textbook bridges the gap between mathematical and machine learning texts, introducing the mathematical concepts with a minimum of prerequisites. It uses these concepts to derive four central machine learning methods: linear regression, principal component analysis, Gaussian mixture models and support vector machines. For students and others with a mathematical background, these derivations provide a starting point to machine learning texts. For those learning the mathematics for the first time, the methods help build intuition and practical experience with applying mathematical concepts. Every chapter includes worked examples and exercises to test understanding. Programming tutorials are offered on the book's web site. |
| uncovering student ideas in science volume 3: 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 |
| uncovering student ideas in science volume 3: 33 Simple Strategies for Faculty Lisa M. Nunn, 2018-10-12 Winner of the 2020 Scholarly Contributions to Teaching and Learning Award from the American Sociological Association Many students struggle with the transition from high school to university life. This is especially true of first-generation college students, who are often unfamiliar with the norms and expectations of academia. College professors usually want to help, but many feel overwhelmed by the prospect of making extra time in their already hectic schedules to meet with these struggling students. 33 Simple Strategies for Faculty is a guidebook filled with practical solutions to this problem. It gives college faculty concrete exercises and tools they can use both inside and outside of the classroom to effectively bolster the academic success and wellbeing of their students. To devise these strategies, educational sociologist Lisa M. Nunn talked with a variety of first-year college students, learning what they find baffling and frustrating about their classes, as well as what they love about their professors’ teaching. Combining student perspectives with the latest research on bridging the academic achievement gap, she shows how professors can make a difference by spending as little as fifteen minutes a week helping their students acculturate to college life. Whether you are a new faculty member or a tenured professor, you are sure to find 33 Simple Strategies for Faculty to be an invaluable resource. |
| uncovering student ideas in science volume 3: Diagnosis for Classroom Success Nicole H. Maller, 2013 After conducting research at a rigorous medical school, your students arrive for their first day of hospital duty only to be confronted with four sick patients, each with a different mystery ailment. How can your teams of student-physicians come up with the correct diagnoses? This attention-grabbing narrative and the corresponding role-plays are the basis of Diagnosis for Classroom Success: Making Anatomy and Physiology Come Alive. This high school curriculum gets your students deeply involved in inquiry-based science as it acquaints them with major body systems, sickle cell anemia, HIV, pregnancy, and diabetes. This Teacher Edition (which includes the Student Edition) spells out the book' s relevance to the Framework for K- 12 Science Education and provides rubrics, answer keys, and prep tips to use before, during, and after the lessons. By blending the power of story with engaging investigations, Diagnosis for Classroom Success will cure what ails your lecture-weary biology classes. |
| uncovering student ideas in science volume 3: How Learning Works Susan A. Ambrose, Michael W. Bridges, Michele DiPietro, Marsha C. Lovett, Marie K. Norman, 2010-04-16 Praise for How Learning Works How Learning Works is the perfect title for this excellent book. Drawing upon new research in psychology, education, and cognitive science, the authors have demystified a complex topic into clear explanations of seven powerful learning principles. Full of great ideas and practical suggestions, all based on solid research evidence, this book is essential reading for instructors at all levels who wish to improve their students' learning. —Barbara Gross Davis, assistant vice chancellor for educational development, University of California, Berkeley, and author, Tools for Teaching This book is a must-read for every instructor, new or experienced. Although I have been teaching for almost thirty years, as I read this book I found myself resonating with many of its ideas, and I discovered new ways of thinking about teaching. —Eugenia T. Paulus, professor of chemistry, North Hennepin Community College, and 2008 U.S. Community Colleges Professor of the Year from The Carnegie Foundation for the Advancement of Teaching and the Council for Advancement and Support of Education Thank you Carnegie Mellon for making accessible what has previously been inaccessible to those of us who are not learning scientists. Your focus on the essence of learning combined with concrete examples of the daily challenges of teaching and clear tactical strategies for faculty to consider is a welcome work. I will recommend this book to all my colleagues. —Catherine M. Casserly, senior partner, The Carnegie Foundation for the Advancement of Teaching As you read about each of the seven basic learning principles in this book, you will find advice that is grounded in learning theory, based on research evidence, relevant to college teaching, and easy to understand. The authors have extensive knowledge and experience in applying the science of learning to college teaching, and they graciously share it with you in this organized and readable book. —From the Foreword by Richard E. Mayer, professor of psychology, University of California, Santa Barbara; coauthor, e-Learning and the Science of Instruction; and author, Multimedia Learning |
| uncovering student ideas in science volume 3: Computational Complexity Sanjeev Arora, Boaz Barak, 2009-04-20 New and classical results in computational complexity, including interactive proofs, PCP, derandomization, and quantum computation. Ideal for graduate students. |
| uncovering student ideas in science volume 3: Social Science Research Anol Bhattacherjee, 2012-03-16 This book is designed to introduce doctoral and graduate students to the process of scientific research in the social sciences, business, education, public health, and related disciplines. |
| uncovering student ideas in science volume 3: Universal Design for Learning Science Deborah Hanuscin, Deborah L. Hanuscin, 2020 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-- |
| uncovering student ideas in science volume 3: Handbook of Research on Student Engagement Sandra L. Christenson, Amy L. Reschly, CATHY WYLIE, 2012-02-23 For more than two decades, the concept of student engagement has grown from simple attention in class to a construct comprised of cognitive, emotional, and behavioral components that embody and further develop motivation for learning. Similarly, the goals of student engagement have evolved from dropout prevention to improved outcomes for lifelong learning. This robust expansion has led to numerous lines of research across disciplines and are brought together clearly and comprehensively in the Handbook of Research on Student Engagement. The Handbook guides readers through the field’s rich history, sorts out its component constructs, and identifies knowledge gaps to be filled by future research. Grounding data in real-world learning situations, contributors analyze indicators and facilitators of student engagement, link engagement to motivation, and gauge the impact of family, peers, and teachers on engagement in elementary and secondary grades. Findings on the effectiveness of classroom interventions are discussed in detail. And because assessing engagement is still a relatively new endeavor, chapters on measurement methods and issues round out this important resource. Topical areas addressed in the Handbook include: Engagement across developmental stages. Self-efficacy in the engaged learner. Parental and social influences on engagement and achievement motivation. The engaging nature of teaching for competency development. The relationship between engagement and high-risk behavior in adolescents. Comparing methods for measuring student engagement. An essential guide to the expanding knowledge base, the Handbook of Research on Student Engagement serves as a valuable resource for researchers, scientist-practitioners, and graduate students in such varied fields as clinical child and school psychology, educational psychology, public health, teaching and teacher education, social work, and educational policy. |
| uncovering student ideas in science volume 3: Freedom's Laboratory Audra J. Wolfe, 2020-08-04 The Cold War ended long ago, but the language of science and freedom continues to shape public debates over the relationship between science and politics in the United States. Scientists like to proclaim that science knows no borders. Scientific researchers follow the evidence where it leads, their conclusions free of prejudice or ideology. But is that really the case? In Freedom's Laboratory, Audra J. Wolfe shows how these ideas were tested to their limits in the high-stakes propaganda battles of the Cold War. Wolfe examines the role that scientists, in concert with administrators and policymakers, played in American cultural diplomacy after World War II. During this period, the engines of US propaganda promoted a vision of science that highlighted empiricism, objectivity, a commitment to pure research, and internationalism. Working (both overtly and covertly, wittingly and unwittingly) with governmental and private organizations, scientists attempted to decide what, exactly, they meant when they referred to scientific freedom or the US ideology. More frequently, however, they defined American science merely as the opposite of Communist science. Uncovering many startling episodes of the close relationship between the US government and private scientific groups, Freedom's Laboratory is the first work to explore science's link to US propaganda and psychological warfare campaigns during the Cold War. Closing in the present day with a discussion of the 2017 March for Science and the prospects for science and science diplomacy in the Trump era, the book demonstrates the continued hold of Cold War thinking on ideas about science and politics in the United States. |
| uncovering student ideas in science volume 3: Finding Wonders Jeannine Atkins, 2016 A biographical novel in verse of three different girls in three different time periods who grew up to become groundbreaking scientists-- |
| uncovering student ideas in science volume 3: University Physics Samuel J. Ling, Jeff Sanny, William Moebs, 2016-09-29 University Physics is a three-volume collection that meets the scope and sequence requirements for two- and three-semester calculus-based physics courses. Volume 1 covers mechanics, sound, oscillations, and waves. This textbook emphasizes connections between theory and application, making physics concepts interesting and accessible to students while maintaining the mathematical rigor inherent in the subject. Frequent, strong examples focus on how to approach a problem, how to work with the equations, and how to check and generalize the result.--Open Textbook Library. |
| uncovering student ideas in science volume 3: Ocean Solutions, Earth Solutions Dawn J. Wright, 2016 This book showcases the latest and best oceanography research using spatial analyses and geographic information systems. This is the leading, most up-to-date book on the subject. |
| uncovering student ideas in science volume 3: Discovering the Scientist Within Michael Meyer, David B Strohmetz, Bedford/St. Martin's, Natalie J. Ciarocco, Gary W. Lewandowski, 2018-01-17 In this breakthrough first edition, authors Gary Lewandowski, Natalie Ciarocco, and David Strohmetz draw on their extensive classroom experiences to introduce research methodology in a highly effective, thoroughly engaging new way, maximizing students’ familiarity with every step of the process. For the first time in a methods text, each design chapter follows a single study from ideation to writing for publication, with students researching an intriguing question emerging from a chapter-long case study. Also for the first time in a methods text, each design chapter models the entire research process, so students get multiple opportunities to experience that process start to finish. |
| uncovering student ideas in science volume 3: Ambitious Science Teaching Mark Windschitl, Jessica Jane Thompson, Melissa L. Braaten, 2018 The book is addressed to classroom science teachers, both beginning and experienced. It is a guide to using four core practices to improve instruction using Ambitious Science Teaching methods.-- |
| uncovering student ideas in science volume 3: California Preschool Curriculum Framework: History-Social Science. Science California. Child Development Division, California. Department of Education, 2010 |
| uncovering student ideas in science volume 3: The Chicago Guide to College Science Teaching Terry McGlynn, 2021-01-29 Higher education is a strange beast. Teaching is a critical skill for scientists in academia, yet one that is barely touched upon in their professional training—despite being a substantial part of their career. This book is a practical guide for anyone teaching STEM-related academic disciplines at the college level, from graduate students teaching lab sections and newly appointed faculty to well-seasoned professors in want of fresh ideas. Terry McGlynn’s straightforward, no-nonsense approach avoids off-putting pedagogical jargon and enables instructors to become true ambassadors for science. For years, McGlynn has been addressing the need for practical and accessible advice for college science teachers through his popular blog Small Pond Science. Now he has gathered this advice as an easy read—one that can be ingested and put to use on short deadline. Readers will learn about topics ranging from creating a syllabus and developing grading rubrics to mastering online teaching and ensuring safety during lab and fieldwork. The book also offers advice on cultivating productive relationships with students, teaching assistants, and colleagues. |
| uncovering student ideas in science volume 3: Fahrenheit 451 Ray Bradbury, 1993 A book burner in a future fascist state finds out books are a vital part of a culture he never knew. He clandestinely pursues reading, until he is betrayed. |
| uncovering student ideas in science volume 3: 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. |
UNCOVERING Synonyms: 104 Similar and Opposite Words - Merriam-Webster
Synonyms for UNCOVERING: disclosure, revelation, unveiling, exposure, awareness, finding, discovery, detection; Antonyms of UNCOVERING: loss, disappearance, hiding, concealment, …
UNCOVERING | definition in the Cambridge English Dictionary
UNCOVERING meaning: 1. present participle of uncover 2. to discover something secret or hidden : 3. to take a cover or…. Learn more.
98 Synonyms & Antonyms for UNCOVERING - Thesaurus.com
Find 98 different ways to say UNCOVERING, along with antonyms, related words, and example sentences at Thesaurus.com.
What does Uncovering mean? - Definitions.net
Uncovering refers to the act of revealing, discovering, or exposing something that has been hidden, concealed, or unknown. This action can be applied to various contexts such as …
Uncovering - definition of uncovering by The Free Dictionary
To remove the cover from: uncovered the saucepan. 2. To manifest or disclose; reveal: uncovered new evidence. 3. To remove the hat from, as in respect or reverence. 1. To remove a cover. 2. …
Uncovering - Definition, Meaning & Synonyms - Vocabulary.com
DISCLAIMER: These example sentences appear in various news sources and books to reflect the usage of the word ‘uncovering'. Views expressed in the examples do not represent the opinion …
UNCOVER definition and meaning | Collins English Dictionary
If you uncover something, especially something that has been kept secret, you discover or find out about it. Auditors said they had uncovered evidence of fraud. [VERB noun] A specific plot to …
UNCOVER Definition & Meaning - Merriam-Webster
The meaning of UNCOVER is to make known : bring to light : disclose, reveal. How to use uncover in a sentence.
UNCOVER Definition & Meaning - Dictionary.com
Uncover definition: to lay bare; disclose; reveal.. See examples of UNCOVER used in a sentence.
1 285 UNCOVERING Synonyms - Power Thesaurus
Another way to say Uncovering? Synonyms for Uncovering (other words and phrases for Uncovering).
UNCOVERING Synonyms: 104 Similar and Opposite Words - Merriam-Webster
Synonyms for UNCOVERING: disclosure, revelation, unveiling, exposure, awareness, finding, discovery, detection; Antonyms of UNCOVERING: loss, disappearance, hiding, concealment, …
UNCOVERING | definition in the Cambridge English Dictionary
UNCOVERING meaning: 1. present participle of uncover 2. to discover something secret or hidden : 3. to take a cover or…. Learn more.
98 Synonyms & Antonyms for UNCOVERING - Thesaurus.com
Find 98 different ways to say UNCOVERING, along with antonyms, related words, and example sentences at Thesaurus.com.
What does Uncovering mean? - Definitions.net
Uncovering refers to the act of revealing, discovering, or exposing something that has been hidden, concealed, or unknown. This action can be applied to various contexts such as …
Uncovering - definition of uncovering by The Free Dictionary
To remove the cover from: uncovered the saucepan. 2. To manifest or disclose; reveal: uncovered new evidence. 3. To remove the hat from, as in respect or reverence. 1. To remove a cover. 2. …
Uncovering - Definition, Meaning & Synonyms - Vocabulary.com
DISCLAIMER: These example sentences appear in various news sources and books to reflect the usage of the word ‘uncovering'. Views expressed in the examples do not represent the opinion …
UNCOVER definition and meaning | Collins English Dictionary
If you uncover something, especially something that has been kept secret, you discover or find out about it. Auditors said they had uncovered evidence of fraud. [VERB noun] A specific plot to …
UNCOVER Definition & Meaning - Merriam-Webster
The meaning of UNCOVER is to make known : bring to light : disclose, reveal. How to use uncover in a sentence.
UNCOVER Definition & Meaning - Dictionary.com
Uncover definition: to lay bare; disclose; reveal.. See examples of UNCOVER used in a sentence.
1 285 UNCOVERING Synonyms - Power Thesaurus
Another way to say Uncovering? Synonyms for Uncovering (other words and phrases for Uncovering).
