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| concept map examples science: Concept Mapping for Planning and Evaluation Mary Kane, William M. K. Trochim, 2007 This is a complete guide to the concept mapping methodology and strategies behind using it for a broad range of social scientists - including students, researchers and practitioners. |
| concept map examples science: Visualizing Social Science Research Johannes Wheeldon, Mauri K. Ahlberg, 2011-07-12 This introductory text presents basic principles of social science research through maps, graphs, and diagrams. The authors show how concept maps and mind maps can be used in quantitative, qualitative, and mixed methods research, using student-friendly examples and classroom-based activities. Integrating theory and practice, chapters show how to use these tools to plan research projects, see analysis strategies, and assist in the development and writing of research reports. |
| concept map examples science: Learning How to Learn Joseph D. Novak, D. Bob Gowin, 1984-09-28 For almost a century, educational theory and practice have been influenced by the view of behavioural psychologists that learning is synonymous with behaviour change. In this book, the authors argue for the practical importance of an alternate view, that learning is synonymous with a change in the meaning of experience. They develop their theory of the conceptual nature of knowledge and describe classroom-tested strategies for helping students to construct new and more powerful meanings and to integrate thinking, feeling, and acting. In their research, they have found consistently that standard educational practices that do not lead learners to grasp the meaning of tasks usually fail to give them confidence in their abilities. It is necessary to understand why and how new information is related to what one already knows. All those concerned with the improvement of education will find something of interest in Learning How to Learn. |
| concept map examples science: Learning, Creating, and Using Knowledge Joseph D. Novak, 2010-02-02 This fully revised and updated edition of Learning, Creating, and Using Knowledge recognizes that the future of economic well being in today's knowledge and information society rests upon the effectiveness of schools and corporations to empower their people to be more effective learners and knowledge creators. Novak’s pioneering theory of education presented in the first edition remains viable and useful. This new edition updates his theory for meaningful learning and autonomous knowledge building along with tools to make it operational ─ that is, concept maps, created with the use of CMapTools and the V diagram. The theory is easy to put into practice, since it includes resources to facilitate the process, especially concept maps, now optimised by CMapTools software. CMapTools software is highly intuitive and easy to use. People who have until now been reluctant to use the new technologies in their professional lives are will find this book particularly helpful. Learning, Creating, and Using Knowledge is essential reading for educators at all levels and corporate managers who seek to enhance worker productivity. |
| concept map examples science: Teaching Science for Understanding Joel J. Mintzes, James H. Wandersee, Joseph D. Novak, 2005-02-21 Teaching Science for Understanding |
| concept map examples 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. |
| concept map examples science: Applied Concept Mapping Brian Moon, Robert R. Hoffman, Joseph Novak, Alberto Canas, 2011-02-07 The expanding application of Concept Mapping includes its role in knowledge elicitation, institutional memory preservation, and ideation. With the advent of the CmapTools knowledge modeling software kit, Concept Mapping is being applied with increased frequency and success to address a variety of problems in the workplace.Supported by business appl |
| concept map examples science: Knowledge and Information Visualization Sigmar-Olaf Tergan, Tanja Keller, 2005-06-27 formation. The basic ideas underlying knowledge visualization and information vi- alization are outlined. In a short preview of the contributions of this volume, the idea behind each approach and its contribution to the goals of the book are outlined. 2 The Basic Concepts of the Book Three basic concepts are the focus of this book: data, information, and kno- edge. There have been numerous attempts to define the terms data, information, and knowledge, among them, the OTEC Homepage Data, Information, Kno- edge, and Wisdom (Bellinger, Castro, & Mills, see http://www.syste- thinking.org/dikw/dikw.htm): Data are raw. They are symbols or isolated and non-interpreted facts. Data rep- sent a fact or statement of event without any relation to other data. Data simply exists and has no significance beyond its existence (in and of itself). It can exist in any form, usable or not. It does not have meaning of itself. |
| concept map examples science: The psychology of meaningful verbal learning David P. Ausubel, 1968 |
| concept map examples science: Pedagogy for Conceptual Thinking and Meaning Equivalence: Emerging Research and Opportunities Etkind, Masha, Shafrir, Uri, 2019-11-08 Research in neuroscience and brain imaging show that exposure of learners to multi-semiotic problems enhance cognitive control of inter-hemispheric attentional processing in the lateral brain and increase higher-order thinking. Multi-semiotic representations of conceptual meaning are found in most knowledge domains where issues of quantity, structure, space, and change play important roles, including applied sciences and social science. Teaching courses in History and Theory of Architecture to young architecture students with pedagogy for conceptual thinking allows them to connect analysis of historic artifact, identify pattern of design ideas extracted from the precedent, and transfer concepts of good design into their creative design process. Pedagogy for Conceptual Thinking and Meaning Equivalence: Emerging Research and Opportunities is a critical scholarly resource that demonstrates an instructional and assessment methodology that enhances higher-order thinking, deepens comprehension of conceptual content, and improves learning outcomes. Based on the rich literature on word meaning and concept formation in linguistics and semiotics, and in developmental and cognitive psychology, it shows how independent studies in these disciplines converge on the necessary clues for constructing a procedure for the demonstration of mastery of knowledge with equivalence-of-meaning across multiple representations. Featuring a wide range of topics such as curriculum design, learning outcomes, and STEM education, this book is essential for curriculum developers, instructional designers, teachers, administrators, education professionals, academicians, policymakers, and researchers. |
| concept map examples science: Drive Daniel H. Pink, 2011-04-05 The New York Times bestseller that gives readers a paradigm-shattering new way to think about motivation from the author of When: The Scientific Secrets of Perfect Timing Most people believe that the best way to motivate is with rewards like money—the carrot-and-stick approach. That's a mistake, says Daniel H. Pink (author of To Sell Is Human: The Surprising Truth About Motivating Others). In this provocative and persuasive new book, he asserts that the secret to high performance and satisfaction-at work, at school, and at home—is the deeply human need to direct our own lives, to learn and create new things, and to do better by ourselves and our world. Drawing on four decades of scientific research on human motivation, Pink exposes the mismatch between what science knows and what business does—and how that affects every aspect of life. He examines the three elements of true motivation—autonomy, mastery, and purpose-and offers smart and surprising techniques for putting these into action in a unique book that will change how we think and transform how we live. |
| concept map examples science: Educational Psychology David Paul Ausubel, Joseph Donald Novak, Helen Hanesian, 1978 |
| concept map examples 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. |
| concept map examples science: Active Learning Sherrie L. Nist, Sherrie Nist-Olejnik, Jodi Patrick Holschuh, Jodi Holschuh, 2000 Helps student to understand himself as a learner and what it takes to succeed. Focuses on four key factors; Students characteristics as learners; the tasks which must be completed in each class; the strategies that will help the student to read, understand and remember what professors expect him to learn and the texts with which the student interact. |
| concept map examples science: Discipline-Based Education Research National Research Council, Division of Behavioral and Social Sciences and Education, Board on Science Education, Committee on the Status, Contributions, and Future Directions of Discipline-Based Education Research, 2012-08-27 The National Science Foundation funded a synthesis study on the status, contributions, and future direction of discipline-based education research (DBER) in physics, biological sciences, geosciences, and chemistry. DBER combines knowledge of teaching and learning with deep knowledge of discipline-specific science content. It describes the discipline-specific difficulties learners face and the specialized intellectual and instructional resources that can facilitate student understanding. Discipline-Based Education Research is based on a 30-month study built on two workshops held in 2008 to explore evidence on promising practices in undergraduate science, technology, engineering, and mathematics (STEM) education. This book asks questions that are essential to advancing DBER and broadening its impact on undergraduate science teaching and learning. The book provides empirical research on undergraduate teaching and learning in the sciences, explores the extent to which this research currently influences undergraduate instruction, and identifies the intellectual and material resources required to further develop DBER. Discipline-Based Education Research provides guidance for future DBER research. In addition, the findings and recommendations of this report may invite, if not assist, post-secondary institutions to increase interest and research activity in DBER and improve its quality and usefulness across all natural science disciples, as well as guide instruction and assessment across natural science courses to improve student learning. The book brings greater focus to issues of student attrition in the natural sciences that are related to the quality of instruction. Discipline-Based Education Research will be of interest to educators, policy makers, researchers, scholars, decision makers in universities, government agencies, curriculum developers, research sponsors, and education advocacy groups. |
| concept map examples science: Handbook of Research on Collaborative Learning Using Concept Mapping Lupion Torres, Patricia, de C ssia Veiga Marriott, Rita, 2009-07-31 This new encyclopedia discusses the extraordinary importance of internet technologies, with a particular focus on the Web. |
| concept map examples science: The Nature of Expertise Michelene T.H. Chi, Robert Glaser, Marshall J. Farr, 2014-01-02 Due largely to developments made in artificial intelligence and cognitive psychology during the past two decades, expertise has become an important subject for scholarly investigations. The Nature of Expertise displays the variety of domains and human activities to which the study of expertise has been applied, and reflects growing attention on learning and the acquisition of expertise. Applying approaches influenced by such disciplines as cognitive psychology, artificial intelligence, and cognitive science, the contributors discuss those conditions that enhance and those that limit the development of high levels of cognitive skill. |
| concept map examples science: Active Learning in College Science Joel J. Mintzes, Emily M. Walter, 2020-02-23 This book explores evidence-based practice in college science teaching. It is grounded in disciplinary education research by practicing scientists who have chosen to take Wieman’s (2014) challenge seriously, and to investigate claims about the efficacy of alternative strategies in college science teaching. In editing this book, we have chosen to showcase outstanding cases of exemplary practice supported by solid evidence, and to include practitioners who offer models of teaching and learning that meet the high standards of the scientific disciplines. Our intention is to let these distinguished scientists speak for themselves and to offer authentic guidance to those who seek models of excellence. Our primary audience consists of the thousands of dedicated faculty and graduate students who teach undergraduate science at community and technical colleges, 4-year liberal arts institutions, comprehensive regional campuses, and flagship research universities. In keeping with Wieman’s challenge, our primary focus has been on identifying classroom practices that encourage and support meaningful learning and conceptual understanding in the natural sciences. The content is structured as follows: after an Introduction based on Constructivist Learning Theory (Section I), the practices we explore are Eliciting Ideas and Encouraging Reflection (Section II); Using Clickers to Engage Students (Section III); Supporting Peer Interaction through Small Group Activities (Section IV); Restructuring Curriculum and Instruction (Section V); Rethinking the Physical Environment (Section VI); Enhancing Understanding with Technology (Section VII), and Assessing Understanding (Section VIII). The book’s final section (IX) is devoted to Professional Issues facing college and university faculty who choose to adopt active learning in their courses. The common feature underlying all of the strategies described in this book is their emphasis on actively engaging students who seek to make sense of natural objects and events. Many of the strategies we highlight emerge from a constructivist view of learning that has gained widespread acceptance in recent years. In this view, learners make sense of the world by forging connections between new ideas and those that are part of their existing knowledge base. For most students, that knowledge base is riddled with a host of naïve notions, misconceptions and alternative conceptions they have acquired throughout their lives. To a considerable extent, the job of the teacher is to coax out these ideas; to help students understand how their ideas differ from the scientifically accepted view; to assist as students restructure and reconcile their newly acquired knowledge; and to provide opportunities for students to evaluate what they have learned and apply it in novel circumstances. Clearly, this prescription demands far more than most college and university scientists have been prepared for. |
| concept map examples science: Visualizing Geology Barbara W. Murck, Brian J. Skinner, 2015-12-21 The newly revised Fourth Edition of Visualizing Geology, WileyPLUS NextGen Card and Loose-leaf Set Single Semester delivers an authoritative and thorough exploration of introductory Earth system science and geology in the distinctive style of the Wiley Visualizing series. Students learn about the three grand geologic cycles – tectonic, rock, and water – and how they interact to create and shape the geologic features we see and experience. This single-semester loose-leaf set includes access to the renowned WileyPLUS NextGen digital learning environment, an indispensable pedagogical addition to any classroom. |
| concept map examples science: The Great Mental Models, Volume 1 Shane Parrish, Rhiannon Beaubien, 2024-10-15 Discover the essential thinking tools you’ve been missing with The Great Mental Models series by Shane Parrish, New York Times bestselling author and the mind behind the acclaimed Farnam Street blog and “The Knowledge Project” podcast. This first book in the series is your guide to learning the crucial thinking tools nobody ever taught you. Time and time again, great thinkers such as Charlie Munger and Warren Buffett have credited their success to mental models–representations of how something works that can scale onto other fields. Mastering a small number of mental models enables you to rapidly grasp new information, identify patterns others miss, and avoid the common mistakes that hold people back. The Great Mental Models: Volume 1, General Thinking Concepts shows you how making a few tiny changes in the way you think can deliver big results. Drawing on examples from history, business, art, and science, this book details nine of the most versatile, all-purpose mental models you can use right away to improve your decision making and productivity. This book will teach you how to: Avoid blind spots when looking at problems. Find non-obvious solutions. Anticipate and achieve desired outcomes. Play to your strengths, avoid your weaknesses, … and more. The Great Mental Models series demystifies once elusive concepts and illuminates rich knowledge that traditional education overlooks. This series is the most comprehensive and accessible guide on using mental models to better understand our world, solve problems, and gain an advantage. |
| concept map examples science: Digital Knowledge Maps in Education Dirk Ifenthaler, Ria Hanewald, 2013-11-01 Digital knowledge maps are ‘at a glance’ visual representations that enable enriching, imaginative and transformative ways for teaching and learning, with the potential to enhance positive educational outcomes. The use of such maps has generated much attention and interest among tertiary education practitioners and researchers over the last few years as higher education institutions around the world begin to invest heavily into new technologies designed to provide online spaces within which to build resources and conduct activities. The key elements of this edited volume will comprise original and innovative contributions to existing scholarship in this field, with examples of pedagogical possibilities as they are currently practiced across a range of contexts. It will contain chapters that address, theory, research and practical issues related to the use of digital knowledge maps in all aspects of tertiary education and draws predominantly on international perspectives with a diverse group of invited contributors. Reports on empirical studies as well as theoretical/conceptual chapters that engage deeply with pertinent questions and issues raised from a pedagogical, social, cultural, philosophical, and/or ethical standpoint are included. Systematic literature reviews dealing with digital knowledge mapping in education are also an integral part of the volume. |
| concept map examples science: Curriculum Development and Teaching Strategies for Gifted Learners C. June Maker, Shirley W. Schiever, 2010 |
| concept map examples science: Probing Understanding Richard White, Richard Gunstone, 2014-04-23 This work aims to provide teachers at all levels and in all subjects with a greater range of practical methods for probing their students' understanding. These probes are presented in the manner of a starting set, to act as a stimulus to invention, rather than as a comprehensive list. |
| concept map examples science: Spurious Correlations Tyler Vigen, 2015-05-12 Spurious Correlations ... is the most fun you'll ever have with graphs. -- Bustle Military intelligence analyst and Harvard Law student Tyler Vigen illustrates the golden rule that correlation does not equal causation through hilarious graphs inspired by his viral website. Is there a correlation between Nic Cage films and swimming pool accidents? What about beef consumption and people getting struck by lightning? Absolutely not. But that hasn't stopped millions of people from going to tylervigen.com and asking, Wait, what? Vigen has designed software that scours enormous data sets to find unlikely statistical correlations. He began pulling the funniest ones for his website and has since gained millions of views, hundreds of thousands of likes, and tons of media coverage. Subversive and clever, Spurious Correlations is geek humor at its finest, nailing our obsession with data and conspiracy theory. |
| concept map examples science: How to Mind Map Tony Buzan, 2002 This practical, mini-guide teaches readers quick-fire methods that will have them creating Mind Maps in minutes, to maximize brainpower and improve creativity. |
| concept map examples science: Atlas of Science Literacy , 2001 An oversized book with ambitious goals: That's the Atlas of Science Literacy. Asking -- then answering -- such vital questions as: -- What should students learn? -- When should they learn it -- and in what order? -- How does each strand of knowledge connect to other vital threads? This new educational tool from AAAS's Project 2061 graphically depicts connections among the learning goals established in Benchmarks for Science Literacy and Science for All Americans. The Atlas is a collection of 50 linked maps that show exactly how students from kindergarten through 12th grade can expand their understanding and skills toward specific science-literacy goals. But the maps don't just show the sequence of Benchmark ideas that lead to a goal. They also show the connections across different areas of mathematics, technology, and (of course) science -- including gravity, evolution and natural selection, the structure of matter, and the flow of matter and energy in ecosystems. This groundbreaking book is every school's road map to helping children learn science systematically. Using the Atlas of Science Literacy as your guide, trace the prerequisites for learning in each grade, make the connections to support science content, and show the way to the next steps to learning for your students. |
| concept map examples science: Using Concept Mapping to Foster Adaptive Expertise Diane Salmon, Melissa Kelly, 2015 Salmon and Kelly provide a research-based framework and corresponding strategies to help teachers develop, critique, and revise their concept maps. In using this approach, teachers refine knowledge for teaching in order to expand their adaptive expertise and ultimately improve the academic performances of their students. |
| concept map examples science: Theory for Education Greg Dimitriadis, George Kamberelis, 2006-03-24 Theory for Education provides a concise and clear introduction to key contemporary theorists, including their lives, major works and ideas. Written for the student in need of a quick introduction or for the scholar brushing up on details, this new volume in the theory4 series presents major thinkers whose work and ideas have shaped critical thinking in our time. Greg Dimitriadis and George Kamberelis underscore the particular relevance of these thinkers for the field of education - their work on education, how others in education have used them and possible future directions for teachers and researchers. Theory for Education's ease of use, clarity and comprehensive scope will be invaluable for those entering the field. Adapted from Theory for Religious Studies, by William E. Deal and Timothy K. Beal. |
| concept map examples science: Visual Tools for Transforming Information Into Knowledge David Hyerle, 2008-09-05 Helps teachers think about what they are doing in the classroom with graphic organizers and how they can use them more effectively. —Mark Johnson, Principal Glenwood Elementary School, Kearney, NE With an emphasis on transforming information into knowledge, everyone who considers themselves a learner or a facilitator of someone else′s learning would benefit from the author′s message and ideas. —Judith A. Rogers, Professional Learning Specialist Tucson Unified School District, AZ Develop students′ thinking, note-taking, and study skills with powerful visual tools! Visual tools have the unique capacity to communicate rich patterns of thinking and help students take control of their own learning. This second edition of A Field Guide to Using Visual Tools shows teachers of all grades and disciplines how to use these tools to improve instruction and generate significant positive changes in students′ cognitive development and classroom performance. Expert David Hyerle describes three basic types of visual tools: brainstorming webs that nurture creativity, graphic organizers that build analytical skills and help process specific content, and concept maps that promote cognitive development and critical thinking. Updated with new research and applications for three kinds of Thinking Maps®, this essential resource: Expands teacher skills with practical guides for using each type of tool Presents recent research on effective instructional strategies, reading comprehension, and how the brain works Includes templates, examples, and more than 70 figures that show classroom applications By utilizing these powerful, brain-compatible learning aids, teachers can help students strengthen higher-order thinking skills, master content and conceptual knowledge, and become independent learners! |
| concept map examples science: The Science of Reading Margaret J. Snowling, Charles Hulme, 2008-04-15 The Science of Reading: A Handbook brings together state-of-the-art reviews of reading research from leading names in the field, to create a highly authoritative, multidisciplinary overview of contemporary knowledge about reading and related skills. Provides comprehensive coverage of the subject, including theoretical approaches, reading processes, stage models of reading, cross-linguistic studies of reading, reading difficulties, the biology of reading, and reading instruction Divided into seven sections:Word Recognition Processes in Reading; Learning to Read and Spell; Reading Comprehension; Reading in Different Languages; Disorders of Reading and Spelling; Biological Bases of Reading; Teaching Reading Edited by well-respected senior figures in the field |
| concept map examples science: Follow That Map! Scot Ritchie, 2009-02 Learn map skills to help you navigate and find things. |
| concept map examples science: The Promise of Adolescence National Academies of Sciences, Engineering, and Medicine, Health and Medicine Division, Division of Behavioral and Social Sciences and Education, Board on Children, Youth, and Families, Committee on the Neurobiological and Socio-behavioral Science of Adolescent Development and Its Applications, 2019-07-26 Adolescenceâ€beginning with the onset of puberty and ending in the mid-20sâ€is a critical period of development during which key areas of the brain mature and develop. These changes in brain structure, function, and connectivity mark adolescence as a period of opportunity to discover new vistas, to form relationships with peers and adults, and to explore one's developing identity. It is also a period of resilience that can ameliorate childhood setbacks and set the stage for a thriving trajectory over the life course. Because adolescents comprise nearly one-fourth of the entire U.S. population, the nation needs policies and practices that will better leverage these developmental opportunities to harness the promise of adolescenceâ€rather than focusing myopically on containing its risks. This report examines the neurobiological and socio-behavioral science of adolescent development and outlines how this knowledge can be applied, both to promote adolescent well-being, resilience, and development, and to rectify structural barriers and inequalities in opportunity, enabling all adolescents to flourish. |
| concept map examples science: Mind Maps at Work: How to be the best at work and still have time to play Tony Buzan, 2012-08-30 Mind Maps at Work takes a fresh and exuberant look at how Mind Maps can keep you one step ahead of your colleagues at work. Full of practical tips, exercises and inspiring casestudies of people from all career backgrounds, it will help you unlock your reservoirs of creativity and find the fulfilment at work you know you deserve. |
| concept map examples science: Silver Burdett Science , 1984 |
| concept map examples science: Structural Knowledge David H. Jonassen, Michael Yacci, Katherine Beissner, 2013-05-13 This book introduces the concept of a hypothetical type of knowledge construction -- referred to as structural knowledge -- that goes beyond traditional forms of information recall to provide the bases for knowledge application. Assuming that the validity of the concept is accepted, the volume functions as a handbook for supporting the assessment and use of structural knowledge in learning and instructional settings. It's descriptions are direct and short, and its structure is consistent. Almost all of the chapters describe a technique for representing and assessing structural knowledge acquisition, conveying knowledge structures through direct instruction, or providing learners with strategies that they may use to acquire structural knowledge. These chapters include the following sections in the same sequence: * description of the technique and its theoretical or conceptual rationale * examples and applications * procedures for development and use * effectiveness -- learner interactions and differences, and advantages and disadvantages * references to the literature. The chapters are structured to facilitate access to information as well as to illuminate comparisons and contrasts among the techniques. |
| concept map examples science: The Inclusion of Environmental Education in Science Teacher Education Alec Bodzin, Beth Shiner Klein, Starlin Weaver, 2010-08-13 In the coming decades, the general public will be required ever more often to understand complex environmental issues, evaluate proposed environmental plans, and understand how individual decisions affect the environment at local to global scales. Thus it is of fundamental importance to ensure that higher quality education about these ecological issues raises the environmental literacy of the general public. In order to achieve this, teachers need to be trained as well as classroom practice enhanced. This volume focuses on the integration of environmental education into science teacher education. The book begins by providing readers with foundational knowledge of environmental education as it applies to the discipline of science education. It relates the historical and philosophical underpinnings of EE, as well as current trends in the subject that relate to science teacher education. Later chapters examine the pedagogical practices of environmental education in the context of science teacher education. Case studies of environmental education teaching and learning strategies in science teacher education, and instructional practices in K-12 science classrooms, are included. This book shares knowledge and ideas about environmental education pedagogy and serves as a reliable guide for both science teacher educators and K-12 science educators who wish to insert environmental education into science teacher education. Coverage includes everything from the methods employed in summer camps to the use of podcasting as a pedagogical aid. Studies have shown that schools that do manage to incorporate EE into their teaching programs demonstrate significant growth in student achievement as well as improved student behavior. This text argues that the multidisciplinary nature of environmental education itself requires problem-solving, critical thinking and literacy skills that benefit students’ work right across the curriculum. |
| concept map examples science: Alternatives in Assessment of Achievements, Learning Processes and Prior Knowledge Menucha Birenbaum, F. Dochy, 2012-12-06 Achievement assessment has undergone a major shift, from what some call a `culture of testing' to a `culture of assessment'. Nowadays, a strong emphasis is placed on the integration of assessment and instruction, on assessing processes rather than just products, and on evaluating individual progress relative to each student's starting point. This book addresses assessment issues in light of the present state of affairs. The first part discusses new alternatives in the assessment of achievement in various subject areas, focusing on agenda, practice, impact and evaluation of the assessment. The second part deals with issues related to assessment of the learning process, specifically: questions concerning the assessment of individual differences in prior knowledge, learning skills and strategies. |
| concept map examples science: Survival Guide for Anatomy & Physiology Kevin T. Patton, 2013-10-15 Don't be overwhelmed by the perils and pitfalls of learning A&P! Survival Guide for Anatomy & Physiology, 2nd Edition provides a quick and easy overview of tips, strategies, and key A&P content to make studying more productive, more fun, and less time-consuming. A perfect on-the-go reference, this handy guide is packed with colorful cartoons, A&P visuals, illustrated tables, and keen insights to help you prepare for even the most dangerous labs and exams. Joining this excellent adventure are two new survival skills chapters plus strategies for using digital resources effectively. Written by renowned author and educator Kevin Patton, this book makes it easier to survive and conquer A&P! - Plan a Learning Strategy section helps you study more effectively by showing how to tailor your learning activities to suit your learning style. - Part 2: Maps, Charts, and Shortcuts breaks the subject of A&P into six sections, so you can quickly find the information you need in an easy-to-read and understand format. - Mnemonic devices and memorable analogies help you remember A&P concepts with ease. - Specific test-taking strategies help you prepare for and pass exams. - Instructions on how to read your A&P textbook lead to greater comprehension. - Dozens of tables make it easy to access the A&P facts you need to remember on the skeletal system, muscles, nerves, circulatory, respiratory, and digestive systems, and more. - NEW! Know the Language chapter focuses on strategies for mastering medical terminology. - UPDATED information includes more on digital-based learning strategies, more examples, and additional study tips to develop skills in mastering pronunciation, dealing with test anxiety, using flashcards, and more. - New analogies and tips help you make deeper connections between challenging A&P concepts and the real world, including What's a Gradient?, Bone Names Have Meaning, Mnemonics to Help You Learn Bone Structures, and more. - NEW! What to Do If You Get Lost chapter offers advice on getting back on track from Kevin Patton, whose enthusiasm, humor, and special insights have guided many students through the A&P wilderness. - New cartoons and illustrated tables simplify facts and concepts relating to topics such as tissues, joint movements, regions of the brain, and more. - New appendices on common abbreviations and word parts make it easy to look up prefixes, suffixes, abbreviations, and more. |
| concept map examples science: Physical Science and Everyday Thinking Fred M. Goldberg, Steve Robinson, Valerie Otero, 2007 |
| concept map examples science: Advanced Concept Maps in STEM Education: Emerging Research and Opportunities Tang, Michael, Karunanithi, Arunprakash T., 2017-06-16 Concept mapping has often been acknowledged as an efficient instrument for aiding students in learning new information. Examining the impact this tool provides in STEM fields can help to create more effective teaching methods. Advanced Concept Maps in STEM Education: Emerging Research and Opportunities highlights both the history and recent innovations of concept maps in learning environments. Featuring extensive coverage of relevant topics including object maps, verbal maps, and spatial maps, this publication is ideal for educators, academicians, students, professionals, and researchers interested in discovering new perspectives on the impact of concept mapping in educational settings. |
CONCEPT Definition & Meaning - Merriam-Webster
The meaning of CONCEPT is something conceived in the mind : thought, notion. How to use concept in a sentence. Synonym Discussion of Concept.
CONCEPT Synonyms: 70 Similar and Opposite Words - Merriam-Webster
Synonyms for CONCEPT: notion, conception, stereotype, theory, generalization, hypothesis, saying, generality; Antonyms of CONCEPT: fact, reality, actuality
CONCEPT | English meaning - Cambridge Dictionary
CONCEPT definition: 1. a principle or idea: 2. to not understand about something: 3. a principle or idea: . Learn more.
Concept - Wikipedia
In a physicalist theory of mind, a concept is a mental representation, which the brain uses to denote a class of things in the world.
Concept - Definition, Meaning & Synonyms - Vocabulary.com
A concept is a thought or idea. If you're redecorating your bedroom, you might want to start with a concept, such as "flower garden" or "outer space." It's a general idea about a thing or group of …
CONCEPT Definition & Meaning | Dictionary.com
a general notion or idea; conception. an idea of something formed by mentally combining all its characteristics or particulars; a construct. a directly conceived or intuited object of thought. a …
concept noun - Definition, pictures, pronunciation and usage …
Definition of concept noun in Oxford Advanced Learner's Dictionary. Meaning, pronunciation, picture, example sentences, grammar, usage notes, synonyms and more.
CONCEPT | definition in the Cambridge Learner’s Dictionary
CONCEPT meaning: an idea or principle: . Learn more.
Concept - definition of concept by The Free Dictionary
1. a general notion or idea; conception. 2. an idea of something formed by mentally combining all its characteristics or particulars; a construct. 3. a directly conceived or intuited object of …
Concept Definition & Meaning - YourDictionary
An idea or thought, esp. a generalized idea of a thing or class of things; abstract notion. An original idea, design, etc.; conception. A central or unifying idea or theme. A concept …
CONCEPT Definition & Meaning - Merriam-Webster
The meaning of CONCEPT is something conceived in the mind : thought, notion. How to use concept in a sentence. Synonym Discussion of Concept.
CONCEPT Synonyms: 70 Similar and Opposite Words - Merriam-Webst…
Synonyms for CONCEPT: notion, conception, stereotype, theory, generalization, hypothesis, saying, generality; Antonyms of CONCEPT: fact, reality, actuality
CONCEPT | English meaning - Cambridge Dictionary
CONCEPT definition: 1. a principle or idea: 2. to not understand about something: 3. a principle or idea: . Learn more.
Concept - Wikipedia
In a physicalist theory of mind, a concept is a mental representation, which the brain uses to denote a class of things in the world.
Concept - Definition, Meaning & Synonyms - Vocabulary.com
A concept is a thought or idea. If you're redecorating your bedroom, you might want to start with a concept, such as "flower garden" or "outer space." It's a general …
