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| concept map for biology: Mapping Biology Knowledge K. Fisher, J.H. Wandersee, D.E. Moody, 2006-04-11 Mapping Biology Knowledge addresses two key topics in the context of biology, promoting meaningful learning and knowledge mapping as a strategy for achieving this goal. Meaning-making and meaning-building are examined from multiple perspectives throughout the book. In many biology courses, students become so mired in detail that they fail to grasp the big picture. Various strategies are proposed for helping instructors focus on the big picture, using the `need to know' principle to decide the level of detail students must have in a given situation. The metacognitive tools described here serve as support systems for the mind, creating an arena in which learners can operate on ideas. They include concept maps, cluster maps, webs, semantic networks, and conceptual graphs. These tools, compared and contrasted in this book, are also useful for building and assessing students' content and cognitive skills. The expanding role of computers in mapping biology knowledge is also explored. |
| concept map for biology: Thinking Connections Frederick Burggraf, 1998 The concept maps contained in this book (for grades 7-12) span 35 topics in life science. Topics were chosen using the National Science Education Standards as a guide. The practice exercise in concept mapping is included to give students an idea of what the tasks ahead will be in content rich maps. Two levels of concept maps are included for each topic so that teachers can easily differentiate their assignments. The structure, features, and notations of concept maps are fully explained. Map topics relate to cell biology, plant biology, animal biology, and human biology. (Author/DDR) |
| concept map for biology: Visualising Powerful Knowledge to Develop the Expert Student Ian M. Kinchin, 2016-07-27 This book puts the structure and function of knowledge firmly in the driving seat of university curriculum development and teaching practice. Through the application of concept mapping, the structure of knowledge can be visualised to offer an explicit perspective on key issues such as curriculum design, student learning and assessment feedback. Structural visualisation allows a greater scrutiny of the qualitative characteristics of knowledge so that we can analyse students’ patterns of learning and match them to expert practice. Based on nearly two decades of research and direct observations of university teaching by the author, this book aims to offer a scholarly account of teacher development. It focusses on elements that will be of immediate utility to academics who want to develop their teaching to a level of adaptive experts, offering them greater autonomy in their role and a powerful understanding of teaching to escape the repressive routines of the traditional classroom. Rather than providing a comprehensive review of educational research, this book provides a route through selected theories that can be explored in practice by university teachers on their own or in groups. The book will help academics to identify the nature of powerful knowledge within their disciplines and consider ways that this may be used by students to become active and engaged learners through the manipulation and transformation of knowledge, and so become expert students. |
| concept map for biology: Invasion Biology Jonathan M Jeschke, Tina Heger, 2018-04-25 There are many hypotheses describing the interactions involved in biological invasions, but it is largely unknown whether they are backed up by empirical evidence. This book fills that gap by developing a tool for assessing research hypotheses and applying it to twelve invasion hypotheses, using the hierarchy-of-hypotheses (HoH) approach, and mapping the connections between theory and evidence. In Part 1, an overview chapter of invasion biology is followed by an introduction to the HoH approach and short chapters by science theorists and philosophers who comment on the approach. Part 2 outlines the invasion hypotheses and their interrelationships. These include biotic resistance and island susceptibility hypotheses, disturbance hypothesis, invasional meltdown hypothesis, enemy release hypothesis, evolution of increased competitive ability and shifting defence hypotheses, tens rule, phenotypic plasticity hypothesis, Darwin's naturalization and limiting similarity hypotheses and the propagule pressure hypothesis. Part 3 provides a synthesis and suggests future directions for invasion research. |
| concept map for biology: Concepts of Biology Samantha Fowler, Rebecca Roush, James Wise, 2023-05-12 Black & white print. Concepts of Biology is designed for the typical introductory biology course for nonmajors, covering standard scope and sequence requirements. The text includes interesting applications and conveys the major themes of biology, with content that is meaningful and easy to understand. The book is designed to demonstrate biology concepts and to promote scientific literacy. |
| concept map for biology: Pedagogic Frailty and Resilience in the University Ian M. Kinchin, Naomi E. Winstone, 2017-04-17 Pedagogic Frailty and Resilience in the University presents a theoretical model and a practical tool to support the professional development of reflective university teachers. It can be used to highlight links to key issues in higher education. Pedagogic frailty exists where the quality of interaction between elements in the evolving teaching environment succumbs to cumulative pressures that eventually inhibit the capacity to develop teaching practice. Indicators of frailty can be observed at different resolutions, from the individual, to the departmental or the institutional. Chapters are written by experts in their respective fields who critique the frailty model from the perspectives of their own research. This will help readers to make practical links between established bodies of research literature and the concept of frailty, and to form a coherent and integrated view of higher education. This can then be explored and developed by individuals, departments or institutions to inform and evaluate their own enhancement programmes. This may support the development of greater resilience to the demands of the teaching environment. In comparison with other commonly used terms, we have found that the term ‘frailty’ has improved resonance with the experiences of colleagues across the disciplines in higher education, and elicits a personal (sometimes emotional) response to their professional situation that encourages positive dialogue, debate and reflection that may lead to the enhancement of university teaching. This book offers a particular route through the fractured discourses of higher education pedagogy, creating a coherent and cohesive perspective of the field that may illuminate the experiences and observations of colleagues within the profession. “If we are to realise the promise of higher education ... we will need the concepts, methods, and reflections contained in this book.” – Robert R. Hoffman |
| concept map for biology: Quick Revision Chapterwise Mind-Maps class 12 Chemistry Disha Experts, 2018-12-13 The ebook ‘Quick revision Chapterwise mind- maps’ Class-12 Chemistry covers 16 chapters of NCERT This ebook is unique and the mind maps are designed in the most comprehensive manner. Mind maps are extremely helpful in faster recall and quick revision Asset for students to excel in CBSE board exam as well as Competitive exams like NTA NEET,JEE Main etc. |
| concept map for biology: Just the Facts [Scholastic] Nancy Loewen, 2010 Ready to build a research report? First, you'll need the right tools. Open this title in the Writer's Toolbox series and discover plenty of tips and tools to get you started. Soon you'll be collecting and organizing facts like a pro! |
| concept map for biology: Innovating with Concept Mapping Alberto Cañas, Priit Reiska, Joseph Novak, 2016-08-20 This book constitutes the refereed proceedings of the 7th International Conference on Concept Mapping, CMC 2016, held in Tallinn, Estonia, in September 2016. The 25 revised full papers presented were carefully reviewed and selected from 135 submissions. The papers address issues such as facilitation of learning; eliciting, capturing, archiving, and using “expert” knowledge; planning instruction; assessment of “deep” understandings; research planning; collaborative knowledge modeling; creation of “knowledge portfolios”; curriculum design; eLearning, and administrative and strategic planning and monitoring. |
| concept map for biology: 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 for biology: Hard-to-teach Biology Concepts Susan Koba, Anne Tweed, 2009 This well-researched book provides a valuable instructional framework for high school biology teachers as they tackle five particularly challenging concepts in their classrooms, meiosis, photosynthesis, natural selection, proteins and genes, and environmental systems and human impact. The author counsels educators first to identify students' prior conceptions, especially misconceptions, related to the concept being taught, then to select teaching strategies that best dispel the misunderstandings and promote the greatest student learning. The book is not a prescribred set of lesson plans. Rather it presents a framework for lesson planning, shares appropriate approaches for developing student understanding, and provides opportunities to reflect and apply those approached to the five hard-to-teach topics. More than 300 teacher resources are listed. |
| concept map for biology: Mind Maps in Biochemistry Simmi Kharb, 2021-02-22 Mind Maps in Biochemistry presents a series of concept and knowledge maps about biochemical compounds, systems and techniques. The book illustrates the relationships between commonly used terms in the subject to convey the meaning of ideas and concepts that facilitate a basic understanding about the subject for readers. Chapters of the book cover both basic topics (lipids, carbohydrates, proteins, nucleotides, enzymes, metabolic pathways, nutrition and physiology) as well as applied topics (clinical diagnosis, diseases, genetic engineering and molecular biology). Key Features i. Topic-based presentation over 16 chapters ii. Coverage of basic and applied knowledge iii. Detailed tables, flow diagrams and illustrations with functional information about metabolic pathways and related concepts iv. Essay and multiple-choice questions with solutions v. Exercises for students to construct their own mind maps, designed to improve analytical skills Mind Maps in Biochemistry is an ideal textbook for quick and easy learning for high school and college level students studying biochemistry as well as teachers instructing courses at these levels. |
| concept map for biology: 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 for biology: Teaching Science for Understanding Joel J. Mintzes, James H. Wandersee, Joseph D. Novak, 2005-02-21 Teaching Science for Understanding |
| concept map for biology: Action Learning and Action Research David Kember, 2000 First Published in 2000. Routledge is an imprint of Taylor & Francis, an informa company. |
| concept map for biology: Mind in Life Evan Thompson, 2010-09-30 How is life related to the mind? The question has long confounded philosophers and scientists, and it is this so-called explanatory gap between biological life and consciousness that Evan Thompson explores in Mind in Life. Thompson draws upon sources as diverse as molecular biology, evolutionary theory, artificial life, complex systems theory, neuroscience, psychology, Continental Phenomenology, and analytic philosophy to argue that mind and life are more continuous than has previously been accepted, and that current explanations do not adequately address the myriad facets of the biology and phenomenology of mind. Where there is life, Thompson argues, there is mind: life and mind share common principles of self-organization, and the self-organizing features of mind are an enriched version of the self-organizing features of life. Rather than trying to close the explanatory gap, Thompson marshals philosophical and scientific analyses to bring unprecedented insight to the nature of life and consciousness. This synthesis of phenomenology and biology helps make Mind in Life a vital and long-awaited addition to his landmark volume The Embodied Mind: Cognitive Science and Human Experience (coauthored with Eleanor Rosch and Francisco Varela). Endlessly interesting and accessible, Mind in Life is a groundbreaking addition to the fields of the theory of the mind, life science, and phenomenology. |
| concept map for biology: Environmental Education in the 21st Century Joy Palmer, 2002-09-11 Environmental education is a field characterised by a paradox. Few would doubt the urgency and importance of learning to live in sustainable ways, but environmental education holds nowhere near the priority position in formal schooling around the world that this would suggest. This text sets out to find out why this is so. It is divided into six parts: Part 1 is a concise history of the development of environmental education from an international perspective; Part 2 is an overview of the 'global agenda', or subject knowledge of environmental education; Part 3 introduces perspectives on theory and research in environmental education; Part 4 moves on to practice, and presents an integrated model for planning environmental education programmes; Part 5 brings together invited contributors who talk about environmental education in their own countries - from 15 countries including China, South Africa, Sri Lanka and the USA; Part 6 returns to the core questions of how progress can be made, and how we can maximise the potential of environmental education for the twenty first century. |
| concept map for biology: Science As Inquiry Jack Hassard, 2011-03 Aligns to Common Core state standards--Cover. |
| concept map for biology: Handbook of College Science Teaching Joel J. Mintzes, 2006 Are you still using 20th century techniques to teach science to 21st century students? Update your practices as you learn about current theory and research with the authoritative Handbook of College Science Teaching. The Handbook offers models of teaching and learning that go beyond the typical lecture-laboratory format and provides rationales for updated practices in the college classroom. The 38 chapters, each written by experienced, award-wining science faculty, are organized into eight sections: attitudes and motivations; active learning; factors affecting learning; innovative teaching approaches; use for technology, for both teaching and student research; special challenges, such as teaching effectively to culturally diverse or learning disabled students; pre-college science instruction; and improving instruction. No other book fills the Handbook's unique niche as a definitive guide for science professors in all content areas. It even includes special help for those who teach non-science majors at the freshman and sophomore levels. The Handbook is ideal for graduate teaching assistants in need of a solid introduction, senior faculty and graduate cooridinators in charge of training new faculty and grad students, and mid-career professors in search of invigoration. |
| concept map for biology: Centering Humanism in STEM Education Bryan Dewsbury, Susannah McGowan, Sheila S. Jaswal , Desiree Forsythe, 2024-09-24 Research demonstrates that STEM disciplines perpetuate a history of exclusion, particularly for students with marginalized identities. This poses problems particularly when science permeates every aspect of contemporary American life. Institutions’ repeated failures to disrupt systemic oppression in STEM has led to a mostly white, cisgender, and male scientific workforce replete with implicit and/or explicit biases. Education holds one pathway to disrupt systemic linkages of STEM oppression from society to the classroom. Maintaining views on science as inherently objective isolates it from the world in which it is performed. STEM education must move beyond the transactional approaches to transformative environments manifesting respect for students’ social and educational capital. We must create a STEM environment in which students with marginalized identities feel respected, listened to, and valued. We must assist students in understanding how their positionality, privilege, and power both historically and currently impacts their meaning making and understanding of STEM. |
| concept map for biology: 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 for biology: Conference Proceeding. New Perspectives in Scienze Education Pixel, 2016-03-04 |
| concept map for biology: 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 for biology: The Biology Teacher's Handbook Biological Sciences Curriculum Study, 2009 Biology teachers, you're in luck, BSCS (Biological Sciences Curriculum Study) presents a wealth of current information in this new, updated editon of the classic The Biology Teachers's Handbook. No matter the depth of your experience, gain insight into what constitutes good teaching, how to guide students through inquiry at varying levels, and how to create a culture of inquiry in your classroom using science notebooks and other strategies. In addition, learn tactics for including controversial subjects in your courses, promoting scientific discussion, and choosing the right materials, information that would benefit the teacher of any subject. BSCS experts have packed this volume with the latest, most valuable teaching ideas and guidelines. Their suggestions include designing your courses around five questions, all answered in the book's five sections: What are the goals of the program for my students and me? How can I help students understand the nature of science? How do I teach controversial topics? How can I create a culture of scientific inquiry in my classroom? Where has biology teaching been, and where is it going? |
| concept map for biology: Innovative Teaching Strategies in Nursing and Related Health Professions Martha Bradshaw, Beth L. Hultquist, 2016-07-29 Innovative Teaching Strategies in Nursing and Related Health Professions, Seventh Edition details a wealth of teaching strategies, focusing on incorporating technology into the classroom, including the use of Web 2.0 technologies like blogs and podcasts. Chapters on blended learning and study abroad programs are featured, enabling students to gain a more diverse and increased global perspective. Highlighting innovative teaching techniques for various learning environments and real-world illustrations of the strategies in use, this text goes beyond theory to offer practical application principles that educators can count on. The Seventh Edition includes two new chapters – Teaching through Storytelling and Giving and Receiving Evaluation Feedback. |
| concept map for biology: Calculations for Molecular Biology and Biotechnology Frank H. Stephenson, 2010-07-30 Calculations for Molecular Biology and Biotechnology: A Guide to Mathematics in the Laboratory, Second Edition, provides an introduction to the myriad of laboratory calculations used in molecular biology and biotechnology. The book begins by discussing the use of scientific notation and metric prefixes, which require the use of exponents and an understanding of significant digits. It explains the mathematics involved in making solutions; the characteristics of cell growth; the multiplicity of infection; and the quantification of nucleic acids. It includes chapters that deal with the mathematics involved in the use of radioisotopes in nucleic acid research; the synthesis of oligonucleotides; the polymerase chain reaction (PCR) method; and the development of recombinant DNA technology. Protein quantification and the assessment of protein activity are also discussed, along with the centrifugation method and applications of PCR in forensics and paternity testing. - Topics range from basic scientific notations to complex subjects like nucleic acid chemistry and recombinant DNA technology - Each chapter includes a brief explanation of the concept and covers necessary definitions, theory and rationale for each type of calculation - Recent applications of the procedures and computations in clinical, academic, industrial and basic research laboratories are cited throughout the text New to this Edition: - Updated and increased coverage of real time PCR and the mathematics used to measure gene expression - More sample problems in every chapter for readers to practice concepts |
| concept map for biology: BSCS Biology , 1997 |
| concept map for biology: Teaching Biology in Schools Kostas Kampourakis, Michael Reiss, 2018-05-23 An indispensable tool for biology teacher educators, researchers, graduate students, and practising teachers, this book presents up-to-date research, addresses common misconceptions, and discusses the pedagogical content knowledge necessary for effective teaching of key topics in biology. Chapters cover core subjects such as molecular biology, genetics, ecology, and biotechnology, and tackle broader issues that cut across topics, such as learning environments, worldviews, and the nature of scientific inquiry and explanation. Written by leading experts on their respective topics from a range of countries across the world, this international book transcends national curricula and highlights global issues, problems, and trends in biology literacy. |
| concept map for biology: Biology Education for Social and Sustainable Development Mijung Kim, C. H. Diong, 2012-10-20 In an era of globalization and urbanization, various social, economic, and environmental challenges surround advances in modern biological sciences. Considering how biological knowledge and practice are intrinsically related to building a sustainable relationship between nature and human society, the roles of biology education need to be rethought to respond to issues and changes to life in this biocentury. This book is a compilation of selected papers from the Twenty Third Biennial Conference of the Asian Association for Biology Education 2010. The title, Biology Education for Social and Sustainable Development, demonstrates how rethinking and reconstruction of biology education in the Asia-Pacific region are increasingly grounded in deep understandings of what counts as valuable local knowledge, practices, culture, and ideologies for national and global issues, and education for sustainable development. The 42 papers by eminent science educators from Australia, China, Philippines, Singapore, Taiwan, and the U.S., represent a diversity of views, understandings, and practices in biology education for sustainable development from school to university in diverse education systems and social-cultural settings in the Asia-Pacific region and beyond. The book is an invaluable resource and essential reference for researchers and educators on Asian perspectives and practices on biology education for social and sustainable development. |
| concept map for biology: Learning, Design, and Technology J. Michael Spector, Barbara B. Lockee, Marcus D. Childress, 2023-11-15 The multiple, related fields encompassed by this Major Reference Work represent a convergence of issues and topics germane to the rapidly changing segments of knowledge and practice in educational communications and technology at all levels and around the globe. There is no other comparable work that is designed not only to gather vital, current, and evolving information and understandings in these knowledge segments but also to be updated on a continuing basis in order to keep pace with the rapid changes taking place in the relevant fields. The Handbook is composed of substantive (5,000 to 15,000 words), peer-reviewed entries that examine and explicate seminal facets of learning theory, research, and practice. It provides a broad range of relevant topics, including significant developments as well as innovative uses of technology that promote learning, performance, and instruction. This work is aimed at researchers, designers, developers, instructors, and other professional practitioners. |
| concept map for biology: Molecular Biology of the Cell , 2002 |
| concept map for biology: Developing Learner-Centered Teaching Phyllis Blumberg, 2012-07-12 Developing Learner-Centered Teaching offers a step-by-step plan for transforming any course from teacher-centered to the more engaging learner-centered model. Filled with self-assessments and worksheets that are based on each of the five practices identified in Maryellen Weimer's Learner-Centered Teaching, this groundbreaking book gives instructors, faculty developers, and instructional designers a practical and effective resource for putting the learner-centered model into action. |
| concept map for biology: Accounting Education Research Richard M.S. Wilson, 2015-04-10 An annual prize is awarded for the best paper appearing in Accounting Education: an international journal, and this book contains the prize-winning papers for every year from 1992 to 2012. The journal’s primary mission since the first issue was published in March 1992 has been to enhance the educational base of accounting practice, and all the papers in this book relate to that mission. These papers, reporting on research studies undertaken by accounting education scholars from around the world, build on research findings from the broader domain of education scholarship and embrace a wide array of topics – including: curriculum development, pedagogic innovation, improving the quality of learning, and assessing learning outcomes. Of particular interest are three themes, each of which runs through several of the papers: students’ approaches to learning and learning style preferences; ethics and moral intensity; and innovation within the accounting curriculum. Accounting educators will find many ideas in the book to help them in enriching their work, and accounting education researchers will be able to identify many points of departure for extending the studies on which the papers report – whether comparatively or longitudinally. This book is a compilation of papers originally published in Accounting Education: an international journal. |
| concept map for biology: Advanced principles of effective e-learning Nicole A. Buzzetto-More, 2007 With the global academic community currently focused on student learning outcomes achievement, assessment, and continuous improvement, e-learning strategies provide effective measures than can assist educators and educational administrators in the satisfaction of key objectives. Whether it is creating and incorporating simulations, building courses and curriculum, engaging in virtual team building, managing online programs, concept mapping, developing an electronic portfolio program, creating active training environments, determining the instructors role, problem solving, evaluating online learning, or using e-learning to build an effective assessment program this book will prove to be an indispensable resource. Geared towards administrators, key decision makers, educators experienced with e-learning, and instructional technology students, it marries the leading literature and prevailing ideologies with best practices illustrated by notable real-world examples. |
| concept map for biology: Fostering Understanding of Complex Systems in Biology Education Orit Ben Zvi Assaraf, Marie-Christine P. J. Knippels, 2022-05-25 This book synthesizes a wealth of international research on the critical topic of ‘fostering understanding of complex systems in biology education’. Complex systems are prevalent in many scientific fields, and at all scales, from the micro scale of a single cell or molecule to complex systems at the macro scale such as ecosystems. Understanding the complexity of natural systems can be extremely challenging, though crucial for an adequate understanding of what they are and how they work. The term “systems thinking” has become synonymous with developing a coherent understanding of complex biological processes and phenomena. For researchers and educators alike, understanding how students’ systems thinking develops is an essential prerequisite to develop and maintain pedagogical scaffolding that facilitates students’ ability to fully understand the system’s complexity. To that end, this book provides researchers and teachers with key insights from the current research community on how to support learners systems thinking in secondary and higher education. Each chapter in the book elaborates on different theoretical and methodological frameworks pertaining to complexity in biology education and a variety of biological topics are included from genetics, photosynthesis, and the carbon cycle to ecology and climate change. Specific attention is paid to design elements of computer-based learning environments to understand complexity in biology education. |
| concept map for biology: Intelligent Tutoring Systems Stefan Trausan-Matu, Kristy Boyer, Martha Crosby, Kitty Panourgia, 2014-05-24 This book constitutes the refereed proceedings of the 12th International Conference on Intelligent Tutoring Systems, ITS 2014, held in Honolulu, HI, USA, in June 2014. The 31 revised full papers, 45 short papers and 27 posters presented were carefully viewed and selected from 177 submissions. The specific theme of the ITS 2014 conference is Creating fertile soil for learning interactions. Besides that, the highly interdisciplinary ITS conferences bring together researchers in computer science, learning sciences, cognitive and educational psychology, sociology, cognitive science, artificial intelligence, machine learning and linguistics. The papers are organized in topical sections on affect; multimodality and metacognition; collaborative learning; data mining and student behavior; dialogue and discourse; generating hints, scaffolds and questions; game-based learning and simulation; graphical representations and learning; student strategies and problem solving; scaling ITS and assessment. |
| concept map for biology: Enhancing Science Education Margaret A.L. Blackie, Hanelie Adendorff, Marnel Mouton, 2022-08-15 This book helps meet an urgent need for theorized, accessible and discipline-sensitive publications to assist science, technology, engineering and mathematics educators. The book introduces Legitimation Code Theory (LCT) and demonstrates how it can be used to improve teaching and learning in tertiary courses across the sciences. LCT provides a suite of tools which science educators can employ in order to help their students grasp difficult and dense concepts. The chapters cover a broad range of subjects, including biology, physics, chemistry and mathematics, as well as different curriculum, pedagogy and assessment practices. This is a crucial resource for any science educator who wants to better understand and improve their teaching. |
| concept map for biology: 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 for biology: Biology Marielle Hoefnagels, 2011-01-10 |
| concept map for biology: A First Course in Systems Biology Eberhard Voit, 2017-09-05 A First Course in Systems Biology is an introduction for advanced undergraduate and graduate students to the growing field of systems biology. Its main focus is the development of computational models and their applications to diverse biological systems. The book begins with the fundamentals of modeling, then reviews features of the molecular inventories that bring biological systems to life and discusses case studies that represent some of the frontiers in systems biology and synthetic biology. In this way, it provides the reader with a comprehensive background and access to methods for executing standard systems biology tasks, understanding the modern literature, and launching into specialized courses or projects that address biological questions using theoretical and computational means. New topics in this edition include: default modules for model design, limit cycles and chaos, parameter estimation in Excel, model representations of gene regulation through transcription factors, derivation of the Michaelis-Menten rate law from the original conceptual model, different types of inhibition, hysteresis, a model of differentiation, system adaptation to persistent signals, nonlinear nullclines, PBPK models, and elementary modes. The format is a combination of instructional text and references to primary literature, complemented by sets of small-scale exercises that enable hands-on experience, and large-scale, often open-ended questions for further reflection. |
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-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 notes ...
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 thought. 4. …
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 restaurant with a …
