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| concept map for environmental science: Environmental Science Travis P. Wagner, Robert M. Sanford, 2018-07-03 Historically viewed as a sub-discipline of biology or ecology, environmental science has quickly grown into its own interdisciplinary field; grounded in natural sciences with branches in technology and the social science, today’s environmental science seeks to understand the human impacts on the Earth and develop solutions that incorporate economic, ethical, planning, and policy thinking. This lab manual incorporates the field’s broad variety of perspectives and disciplines to provide a comprehensive introduction to the everyday practice of environmental science. Hands-on laboratory activities incorporate practical techniques, analysis, and written communication in order to mimic the real-world workflow of an environmental scientist. This updated edition includes a renewed focus on problem solving, and offers more balanced coverage of the field’s diverse topics of interest including air pollution, urban ecology, solid waste, energy consumption, soil identification, water quality assessment, and more, with a clear emphasis on the scientific method. While labs focus on the individual, readers are encouraged to extrapolate to assess effects on their campus, community, state, country, and the world. |
| concept map for environmental science: Handbook of Research on Ecosystem-Based Theoretical Models of Learning and Communication Railean, Elena A., 2019-03-22 ICT and globalization have completely redefined learning and communication. People virtually connect to, collaborate with, and learn from other individuals. Because educational technology has matured considerably since its inception, there are still many issues in the design of learner-centered environments. The Handbook of Research on Ecosystem-Based Theoretical Models of Learning and Communication is an essential reference source that discusses learning and communication ecosystems and the strategic role of trust at different levels of the information and knowledge society. Featuring research on topics such as global society, life-long learning, and nanotechnology, this book is ideally designed for educators, instructional designers, principals, administrators, professionals, researchers, and students. |
| concept map for environmental science: Environmental Science William P. Cunningham, Mary Ann Cunningham, Barbara Woodworth Saigo, 2003-03 This book is intended for use in a one- or two-semester course in environmental science, human ecology, or environmental studies at the college or advanced placement high school level. Because most students who will use this book are freshman or sophomore nonscience majors, the authors have tried to make the text readable and accessible without technical jargon or a presumption of prior science background. At the same time, enough data and depth are presented to make this book suitable for many upper-division classes and a valuable resource for students who will keep it in their personal libraries after their formal studies are completed.The goal of this book is to provide an up-to-date, introductory view of essential themes in environmental science along with emphasis on details and case studies that will help students process and retain the general principles. |
| concept map for environmental science: Environmental Science , |
| concept map for environmental science: Environmental Science Travis P. Wagner, Robert M. Sanford, 2009-01-27 One of the few lab books available in the field, Environmental Science is designed to provide environmental scientists with active learning situations that demonstrate the impacts of interactions between humans and the environment. It encourages readers to reflect on real life conditions and the connection to the environment and sustainability. Emphasis is placed on writing and communication through lab reports, presentations, and real-world scenarios. Environmental scientists will be able to apply concepts in the lab and gain a stronger understanding of the field. |
| concept map for environmental science: Environmental Studies YCT Expert Team , 2022-23 CTET/TET Environmental Studies Solved Papers |
| concept map for environmental science: Spatial Modeling in GIS and R for Earth and Environmental Sciences Hamid Reza Pourghasemi, Candan Gokceoglu, 2019-01-18 Spatial Modeling in GIS and R for Earth and Environmental Sciences offers an integrated approach to spatial modelling using both GIS and R. Given the importance of Geographical Information Systems and geostatistics across a variety of applications in Earth and Environmental Science, a clear link between GIS and open source software is essential for the study of spatial objects or phenomena that occur in the real world and facilitate problem-solving. Organized into clear sections on applications and using case studies, the book helps researchers to more quickly understand GIS data and formulate more complex conclusions. The book is the first reference to provide methods and applications for combining the use of R and GIS in modeling spatial processes. It is an essential tool for students and researchers in earth and environmental science, especially those looking to better utilize GIS and spatial modeling. - Offers a clear, interdisciplinary guide to serve researchers in a variety of fields, including hazards, land surveying, remote sensing, cartography, geophysics, geology, natural resources, environment and geography - Provides an overview, methods and case studies for each application - Expresses concepts and methods at an appropriate level for both students and new users to learn by example |
| concept map for environmental science: Environmental Science Daniel D. Chiras, 2013 Completely updated, the ninth edition of 'Environmental Science' enlightens students on the fundamental causes of the current environmental crisis and offers ideas on how we, as a global community, can create a sustainable future. |
| concept map for environmental science: Environmental Science Michael J. Padilla, 2002 |
| concept map for environmental science: Earth and Mind II Kim A. Kastens, Cathryn A. Manduca, 2012 Articles refer to teaching at various different levels from kindergarten to graduate school, with sections on teaching: geologic time, space, complex systems, and field-work. Each section includes an introduction, a thematic paper, and commentaries. |
| concept map for environmental science: Environmental Science Daniel Chiras, 2010 Completely updated, the eighth edition of 'Environmental Science' enlightens students on the fundamental causes of the current environmental crisis and offers ideas on how we, as a global community, can create a sustainable future. |
| concept map for environmental science: Study Skills for Geography, Earth and Environmental Science Students Pauline E. Kneale, 2019-03-26 This guide will help you to survive and thrive during your degree and on into the workplace. Everything you do at university can be useful in your career. Packed with practical hints, study tips, short cuts, real-life examples and careers advice, the new expanded fourth edition of this book is an invaluable resource throughout your geography, earth science or environmental science studies. This book provides guidance for successful study on many topics including: Starting as a student Being an effective researcher Presenting information effectively in posters, presentations, essays and reports Time management, well-being and ethics Field and laboratory work Assessment and feedback Written in an accessible style, this guide also explains the role of the academic, and how it differs from that of a school teacher. It prepares you for the world of work by showing how the skills you learn at university today can be used in your career choice of tomorrow. |
| concept map for environmental science: Unplugging the Classroom Hilary Anne Wilder, Sharmila Pixy Ferris, 2017-05-17 Unplugging the Classroom: Teaching with Technologies to Promote Students' Lifelong Learning provides techniques to help teaching and learning in an age where technology untethers instruction from the classroom, from semester seat-time, and from a single source of expertise. The book brings together researchers and practitioners from diverse academic fields, including library perspectives, and presents interdisciplinary discussions from both theoretical and applied areas. It is unique in its goal of bringing educators and librarians together to explore the challenges that are faced by students and faculty in any time, any place, any path, and any pace learning. In spite of the fact that the mobile revolution has definitively arrived, students and faculty alike aren't ready to make the leap to mobile learning. The pressures of technological advances, along with the changing nature of learning, will demand increasingly profound changes in education. Researchers have begun to address this issue, but the revolution in mobile communication has not been accompanied by a concomitant growth in pedagogical resources for educators and students. More importantly, such growth needs to be under-girded by sound learning theories and examples of best practice. - Provides a hands-on resource useful to both novices and experts for technology-enabled teaching and learning - Gives both discipline-specific and cross-disciplinary perspectives - Discusses discipline-specific mobile applications - Offers an opportunity to meet the needs of contemporary learners and foster their competencies as lifelong learners - Addresses emerging issues in technology and pedagogy |
| concept map for environmental science: Multidisciplinary Research Volume I Sruthi.S, Dr. Mohammad Rauf Dr. S SriranjaniMokshagundamDr. Sagar G Dr. Vinayaka K.S, |
| concept map for environmental science: Environmental Science Michael L. McKinney, Robert M. Schoch, 2003 This edition provides a comprehensive overview and synthesis of current environmental issues and problems. |
| concept map for environmental science: Environmental Biology for Engineers and Scientists David A. Vaccari, Peter F. Strom, James E. Alleman, 2005-10-27 The growth of the environmental sciences has greatly expanded thescope of biological disciplines today's engineers have to dealwith. Yet, despite its fundamental importance, the full breadth ofbiology has been given short shrift in most environmentalengineering and science courses. Filling this gap in the professional literature, EnvironmentalBiology for Engineers and Scientists introduces students ofchemistry, physics, geology, and environmental engineering to abroad range of biological concepts they may not otherwise beexposed to in their training. Based on a graduate-level coursedesigned to teach engineers to be literate in biological conceptsand terminology, the text covers a wide range of biology withoutmaking it tedious for non-biology majors. Teaching aids include: * Notes, problems, and solutions * Problem sets at the end of each chapter * PowerPoints(r) of many figures A valuable addition to any civil engineering and environmentalstudies curriculum, this book also serves as an importantprofessional reference for practicing environmental professionalswho need to understand the biological impacts of pollution. |
| concept map for environmental science: IGNOU B.Ed Entrance Exam 2024 - Science (English Edition) | Indira Gandhi Open University | 15 Mock Tests EduGorilla Community Pvt. Ltd., • Best Selling Book in English Edition for IGNOU B.Ed Science with objective-type questions as per the latest syllabus. • IGNOU B.Ed Science Preparation Kit comes with 15 Practice Tests with the best quality content. • Increase your chances of selection by 16X. • IGNOU B.Ed Science Prep Kit comes with well-structured and 100% detailed solutions for all the questions. • Clear exam with good grades using thoroughly Researched Content by experts. |
| concept map for environmental science: Primary Science Kit Rosemary Sherrington, 2002 This kit has been devised to help teachers of primary science in schools of all sizes. The two-year age band structure, the compact size of the resources, correlation to the QCA Scheme of Work and recommended teaching times all contribute to making teaching science more effective in the school. The Teacher Resource Books contain a comprehensive series of clearly structured lesson plans that enable you to teach the QCA Scheme of Work, with six units in each year. |
| concept map for environmental 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 for environmental science: Facing Global Environmental Change Hans Günter Brauch, Navnita Chadha Behera, Patricia Kameri-Mbote, John Grin, Úrsula Oswald Spring, Béchir Chourou, Czeslaw Mesjasz, Heinz Krummenacher, 2009-06-04 The year 2007 could perhaps accurately be described as the year when climate change finally received the attention that this challenge deserves globally. Much of the information and knowledge that was created in this field during the year was the result of the findings of the Fourth - sessment Report (AR4) of the Intergovernmental Panel on Climate Change (IPCC), which were disseminated on a large scale and reported extensively by the media. This was the result not only of a heightened interest on the part of the public on various aspects of climate change, but also because the IPCC itself proactively attempted to spread the findings of its AR4 to the public at large. The interest generated on the scientific realities of climate change was further enhanced by the award of the Nobel Peace Prize to the IPCC and former Vice President of the US, Al Gore. By taking this decision in favour of a leader who has done a great deal to create awareness on c- mate change, and a body that assesses all scientific aspects of climate change and disseminates the result of its findings, the Norwegian Nobel Committee has clearly drawn the link between climate change and peace in the world. |
| concept map for environmental science: Education And Awareness Of Sustainability - Proceedings Of The 3rd Eurasian Conference On Educational Innovation 2020 (Ecei 2020) Charles Tijus, Teen-hang Meen, Chun-yen Chang, 2020-11-17 This volume represents the proceedings of the 3rd Eurasian Conference on Educational Innovation 2020 (ECEI 2020). Thes conference is organized by the International Institute of Knowledge Innovation and Invention (IIKII), and was held on February 5-7, 2020 in Hanoi, Vietnam.ECEI 2020 provides a unified communication platform for researchers in a range of topics in education innovation and other related fields. This proceedings volume enables interdisciplinary collaboration of science and engineering technologists. It is a fine starting point for establishing an international network in the academic and industrial fields. |
| concept map for environmental science: Knowledge Representation and Relation Nets Aletta E. Geldenhuys, Hendrik O. van Rooyen, Franz Stetter, 2012-12-06 Knowledge Representation and Relation Nets introduces a fresh approach to knowledge representation that can be used to organize study material in a convenient, teachable and learnable form. The method extends and formalizes concept mapping by developing knowledge representation as a structure of concepts and the relationships among them. Such a formal description of analogy results in a controlled method of modeling `new' knowledge in terms of `existing' knowledge in teaching and learning situations, and its applications result in a consistent and well-organized approach to problem solving. Additionally, strategies for the presentation of study material to learners arise naturally in this representation. While the theory of relation nets is dealt with in detail in part of this book, the reader need not master the formal mathematics in order to apply the theory to this method of knowledge representation. To assist the reader, each chapter starts with a brief summary, and the main ideas are illustrated by examples. The reader is also given an intuitive view of the formal notions used in the applications by means of diagrams, informal descriptions, and simple sets of construction rules. Knowledge Representation and Relation Nets is an excellent source for teachers, courseware designers and researchers in knowledge representation, cognitive science, theories of learning, the psychology of education, and structural modeling. |
| concept map for environmental science: The Anthropocene David R. Butler, 2021-12-21 This book is devoted to the Anthropocene, the period of unprecedented human impacts on Earth’s environmental systems, and illustrates how Geographers envision the concept of the Anthropocene. This edited volume illustrates that geographers have a diverse perspective on what the Anthropocene is and represents. The chapters also show that geographers do not feel it necessary to identify only one starting point for the temporal onset of the Anthropocene. Several starting points are suggested, and some authors support the concept of a time-transgressive Anthropocene. Chapters in this book are organized into six sections, but many of them transcend easy categorization and could have fit into two or even three different sections. Geographers embrace the concept of the Anthropocene while defining it and studying it in a variety of ways that clearly show the breadth and diversity of the discipline. This book will be of great value to scholars, researchers, and students interested in geography, environmental humanities, environmental studies, and anthropology. The chapters in this book were originally published as a special issue of the journal Annals of the American Association of Geographers. |
| concept map for environmental science: Teaching Mathematics Using Interactive Mapping Sandra L. Arlinghaus, Joseph J. Kerski, William C. Arlinghaus, 2023-12-11 Teaching Mathematics Using Interactive Mapping offers novel ways to learn basic math topics such as simple relational measures or measuring hierarchies through customized interactive mapping activities. These activities focus on interactive web-based Geographic Information System (GIS) and are relevant to today’s problems and challenges. Written in a guided, hands-on, understandable manner, all activities are designed to build practical and problem-solving skills that rest on mathematical principles and move students from thinking about maps as references that focus solely on where is something, to analytical tools, focusing primarily on the whys of where. Success with this transition through interaction permits most readers to master mathematical concepts and GIS tools. FEATURES Offers custom-designed geographical activities to fit with specific mathematical topics Helps students become comfortable using mathematics in a variety of professions Provides an innovative, engaging, and practical set of activities to ease readers through typically difficult, often elementary, mathematical topics: fractions, the distributive law, and much more Uses web-based GIS maps, apps, and other tools and data that can be accessed on any device, anywhere, at any time, requiring no prior GIS background Written by experienced teachers and researchers with lifelong experience in teaching mathematics, geography, and spatial analysis This textbook applies to undergraduate and graduate students in universities and community colleges including those in basic mathematics courses, as well as upper-level undergraduate and graduate students taking courses in geographic information systems, remote sensing, photogrammetry, geography, geodesy, information science, engineering, and geology. Professionals interested in learning techniques and technologies for collecting, analyzing, managing, processing, and visualizing geospatial datasets will also benefit from this book as they refresh their knowledge in mathematics. |
| concept map for environmental science: EduChange Methodology Jiří Pánek et al., Making Knowledge Together - Addressing Climate Change through Innovative Place Based Education and Blended Learning is the official name of the Erasmus+ Strategic Partnership project, shortly EduChange. The project aimed to innovate our way of teaching about Climate Change in both local and global perspectives via the field course methodology. It brought together students and teachers from four European universities - University of Malta, Utrecht University (the Netherlands), Norwegian University of Science and Technology, Trondheim (Norway), and Palacky University Olomouc (Czechia) with an idea, that teaching and learning in the field is often rather traditional and teacher-led. Through EduChange, we wanted to transform field courses into innovative, creative learning environments in which teachers, students and pupils can create knowledge together. We believe that supporting innovation and creativity can be achieved via international partnerships and inter- and trans-dis- ciplinary approaches. This book presents the overall methodology used during the EduChange project. |
| concept map for environmental science: Intelligent Tutoring Systems Vincent Aleven, Judy Kay, Jack Mostow, 2010-06-04 The 10th International Conference on Intelligent Tutoring Systems, ITS 2010, cont- ued the bi-annual series of top-flight international conferences on the use of advanced educational technologies that are adaptive to users or groups of users. These highly interdisciplinary conferences bring together researchers in the learning sciences, computer science, cognitive or educational psychology, cognitive science, artificial intelligence, machine learning, and linguistics. The theme of the ITS 2010 conference was Bridges to Learning, a theme that connects the scientific content of the conf- ence and the geography of Pittsburgh, the host city. The conference addressed the use of advanced technologies as bridges for learners and facilitators of robust learning outcomes. We received a total of 186 submissions from 26 countries on 5 continents: Aust- lia, Brazil, Canada, China, Estonia, France, Georgia, Germany, Greece, India, Italy, Japan, Korea, Mexico, The Netherlands, New Zealand, Pakistan, Philippines, Saudi Arabia, Singapore, Slovakia, Spain, Thailand, Turkey, the UK and USA. We accepted 61 full papers (38%) and 58 short papers. The diversity of the field is reflected in the range of topics represented by the papers submitted, selected by the authors. |
| concept map for environmental science: Environmental Literacy in Science and Society Roland W. Scholz, 2011-07-21 In an era where humans affect virtually all of the earth's processes, questions arise about whether we have sufficient knowledge of human-environment interactions. How can we sustain the Earth's ecosystems to prevent collapses and what roles should practitioners and scientists play in this process? These are the issues central to the concept of environmental literacy. This unique book provides a comprehensive review and analysis of environmental literacy within the context of environmental science and sustainable development. Approaching the topic from multiple perspectives, it explores the development of human understanding of the environment and human-environment interactions in the fields of biology, psychology, sociology, economics and industrial ecology. The discussion emphasises the importance of knowledge integration and transdisciplinary processes as key strategies for understanding complex human-environment systems (HES). In addition, the author defines the HES framework as a template for investigating sustainably coupled human-environment systems in the 21st century. |
| concept map for environmental science: Concept Mapping as an Assessment Tool for Conceptual Understanding in Mathematics Haiyue JIN, 2022-05-05 This book investigates the practicability and effectiveness of the concept map as a tool for assessing students’ conceptual understanding in mathematics. The author first introduces concept mapping and then employs it to investigate students’ conceptual understanding of four different mathematical topics. Alongside traditional scoring methods, she adopts Social Network Analysis, a new technique, to interpret student-constructed concept maps, which reveals fresh insights into the graphic features of the concept map and into how students connect mathematical concepts. By comparing two traditional school tests with the concept map, she examines its concurrent validity and discusses its strengths and drawbacks from the viewpoint of assessing conceptual understanding. With self-designed questionnaires, interviews, and open-ended writing tasks, she also investigates students and teachers’ attitudes toward concept mapping and describes the implications these findings may have for concept mapping’s use in school and for further research on the topic. Scholars and postgraduate students of mathematics education and teachers interested in concept mapping or assessing conceptual understanding in classroom settings will find this book an informative, inspiring, and overall valuable addition to their libraries. |
| concept map for environmental science: Small Teaching James M. Lang, 2021-07-26 A freshly updated edition featuring research-based teaching techniques that faculty in any discipline can easily implement Research into how we learn can help facilitate better student learning—if we know how to apply it. Small Teaching fills the gap in higher education literature between the primary research in cognitive theory and the classroom environment. In this book, James Lang presents a strategy for improving student learning with a series of small but powerful changes that make a big difference―many of which can be put into practice in a single class period. These are simple interventions that can be integrated into pre-existing techniques, along with clear descriptions of how to do so. Inside, you’ll find brief classroom or online learning activities, one-time interventions, and small modifications in course design or student communication. These small tweaks will bring your classroom into alignment with the latest evidence in cognitive research. Each chapter introduces a basic concept in cognitive research that has implications for classroom teaching, explains the rationale for offering it within a specific time period in a typical class, and then provides concrete examples of how this intervention has been used or could be used by faculty in a variety of disciplines. The second edition features revised and updated content including a newly authored preface, new examples and techniques, updated research, and updated resources. How can you make small tweaks to your teaching to bring the latest cognitive science into the classroom? How can you help students become good at retrieving knowledge from memory? How does making predictions now help us learn in the future? How can you build community in the classroom? Higher education faculty and administrators, as well as K-12 teachers and teacher trainers, will love the easy-to-implement, evidence-based techniques in Small Teaching. |
| concept map for environmental science: Environmental Sustainability in a Time of Change Robert Brinkmann, 2019-10-18 Environmental Sustainability in a Time of Change is the first book in a new Palgrave series on Environmental Sustainability. It takes a fresh look at the dynamic field of environmental sustainability by exploring the interconnections between climate change, water, energy, waste, land use, ecosystems, food, and transportation. It also provides an extensive summary on sustainability management, data analysis, mapping, and data sources. Brinkmann highlights how environmental sustainability challenges are distinctly different in the developed world, where sustainability is largely a choice, versus the developing world, where many struggle with basic existence due to war, migration, and water or food scarcity. He takes a broad systems and historic approach to contextualize environmental sustainability prior to the 1987 Brundtland Report and utilizes many contemporary examples throughout the text, analyzing numerous case studies from many areas of the world including China, Yemen, Malaysia, Egypt, and Florida. This book questions traditional approaches to sustainability that highlight the need for an equal balance of economic development, environmental protection, and social equality to achieve sustainability. This book focuses on a new line of thinking that places environmental sustainability as the key foundation in how to manage sustainability in a time of change. Our planet is quickly becoming environmentally unsustainable due to global consumption and unsustainable economic development and it is high time for a fresh approach. This book will be of great value to academics, practitioners, and students interested in environmental sustainability from a myriad of fields including geology, geography, biology, ecology, economics, business, sociology, anthropology, and other areas that intersect the interdisciplinary field of sustainability. |
| concept map for environmental science: Ebook: Environmental Science: A Global Concern William Cunningham, Mary Cunningham, 2014-10-16 Environmental Science: A Global Concern is a comprehensive presentation of environmental science for non-science majors which emphasizes critical thinking, environmental responsibility, and global awareness. This book is intended for use in a one or two-semester course in environmental science, human ecology, or environmental studies at the college or advanced placement high school level. As practicing scientists and educators, the Cunningham author team brings decades of experience in the classroom, in the practice of science, and in civic engagement. This experience helps give students a clear sense of what environmental science is and why it matters in this exciting, new 13th edition. Environmental Science: A Global Concern provides readers with an up-to-date, introductory global view of essential themes in environmental science. The authors balance evidence of serious environmental challenges with ideas about what we can do to overcome them. An entire chapter focuses on ecological restoration; one of the most important aspects of ecology today. Case studies in most chapters show examples of real progress, and “What Can You Do?” lists give students ideas for contributing to solutions |
| concept map for environmental science: Green and Sustainable Processing Ponnadurai Ramasami, 2021-10-25 Based on The Virtual Conference on Chemistry and its Applications (VCCA-2020) - Research and Innovations in Chemical Sciences: Paving the Way Forward held in August 2020 and organized by the Computational Chemistry Group of the University of Mauritius. The chapters reflect a wide range of fundamental and applied research in the chemical sciences and interdisciplinary subjects. |
| concept map for environmental science: Resources in Education , 2001 |
| concept map for environmental science: Understanding by Design Grant P. Wiggins, Jay McTighe, 2005 What is understanding and how does it differ from knowledge? How can we determine the big ideas worth understanding? Why is understanding an important teaching goal, and how do we know when students have attained it? How can we create a rigorous and engaging curriculum that focuses on understanding and leads to improved student performance in today's high-stakes, standards-based environment? Authors Grant Wiggins and Jay McTighe answer these and many other questions in this second edition of Understanding by Design. Drawing on feedback from thousands of educators around the world who have used the UbD framework since its introduction in 1998, the authors have greatly revised and expanded their original work to guide educators across the K-16 spectrum in the design of curriculum, assessment, and instruction. With an improved UbD Template at its core, the book explains the rationale of backward design and explores in greater depth the meaning of such key ideas as essential questions and transfer tasks. Readers will learn why the familiar coverage- and activity-based approaches to curriculum design fall short, and how a focus on the six facets of understanding can enrich student learning. With an expanded array of practical strategies, tools, and examples from all subject areas, the book demonstrates how the research-based principles of Understanding by Design apply to district frameworks as well as to individual units of curriculum. Combining provocative ideas, thoughtful analysis, and tested approaches, this new edition of Understanding by Design offers teacher-designers a clear path to the creation of curriculum that ensures better learning and a more stimulating experience for students and teachers alike. |
| concept map for environmental science: Shaping Concepts of Technology Marc J de Vries, Arley Tamir, 2012-12-06 As our modem society is so obviously influenced by technology, there is a growing awareness of its importance for education. The interest for including technology as a part of general education curricula is increasing. In many countries technology is an element in the curriculum either as a topic, a project, part of a Science-Technology-Society (STS) programme, part of science education, or as a separate subject. In order to clarify what technology is, there is a need for international discussions in which philosophers, engineers, scientists and educational ists are involved. One of the few conferences with such a broad representation was the second Jerusalem International Science and Technology Education Conference (JISTEC) that was held in Jerusalem, January 8-11, 1996, a conference that can truly be seen as a milestone in the international history of technology education. More than 1,000 technology educators from more than 80 countries of the world and ministers of education from 28 coun tries came together to discuss current issues in technology education during JlSTEC. To cite from Dr. Michael Dyrenfurth's personal overview of the conference in the Journal of Industrial Teacher Education (vol. 33, no. 2, Winter 1996, pp. 83-85): 'Simply put, this conference represented the most stellar international collection of technology education advocates the world has ever seen in one place'. Or in the words of Dr. |
| concept map for environmental science: International Handbook on Geographical Education Rod Gerber, 2013-03-09 I am very pleased to have been asked by Rod Gerber to provide a preface to such a book. Not least because of the twenty-four chapters, eight are written by former students or colleagues with whom I have worked in the past and whom I still meet at conferences on geographical education. It is with a certain pride and joy that I note the progress which has been made in geographical education both in its day to day teaching and in research, in the twenty years following the end of my term of office as Chair of the Commission on Geographical Education of the International Geographical Union (CGEIUG). My successors, Joe Stoltman, Hartwig Haubrich, Rod Gerber and now Lea Houtsonen, have done much and are continuing to work hard, to foster the development of geographical education. This book is proof, if proof were needed, that the international collaboration in this field, is alive and well, with contributions coming from all the continents (except Antarctica!). It would be a moribund subject that remained unaffected in one way or another by developments on the 'great world stage', as Fairgrieve (1926) would have put it. And, as Rod Gerber shows, the issues of globalisation, of cultural encounters, of differing value systems, of new technologies, of variable economic development and of environmental quality, all feature as topics which influence and are influenced by, geographical education. |
| concept map for environmental science: 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 environmental science: Idea-Based Learning Edmund J. Hansen, 2023-07-03 Synthesizing the best current thinking about learning, course design, and promoting student achievement, this is a guide to developing college instruction that has clear purpose, is well integrated into the curriculum, and improves student learning in predictable and measurable ways. The process involves developing a transparent course blueprint, focused on a limited number of key concepts and ideas, related tasks, and corresponding performance criteria; as well as on frequent practice opportunities, and early identification of potential learning barriers. Idea-based Learning takes as its point of departure the big conceptual ideas of a discipline that give structure and unity to a course and even to the curriculum, as opposed to a focus on content that can lead to teaching sequences of loosely-related topics; and aligns with notions of student-centered and outcomes-based learning environments.Adopting a backwards design model, it begins with three parallel processes: first, identifying the material that is crucial for conceptual understanding; second, articulating a clear rationale for how to choose learning outcomes based on student needs and intellectual readiness; and finally, aligning the learning outcomes with the instructional requirements of the authentic performance tasks. The resulting syllabi ensure cohesion between sections of the same course as well as between courses within a whole curriculum, assuring the progressive development of students’ skills and knowledge.Key elements of IBL include:* Helping students see the big picture* Building courses around one or more authentic performance tasks that illuminate the core concepts of the discipline* Clearly identifying performance criteria for all tasks* Incorporating practice in the competencies that are deemed important for students’ success* By placing the onus of learning on the student, liberating faculty to take on the role of learning coaches* Designing tasks that help students unlearn simplistic ideas and replace them with improved understandingsEdmund Hansen expertly guides the reader through the steps of the process, providing examples along the way, and concluding with a sample course design document and syllabus that illustrate the principles he propounds. |
| concept map for environmental science: Targeting Writing Across the Curriculum Merryn Whitfield, 2001 Targeting across the curriculum: book 3, upper primary. |
| concept map for environmental science: Computers in Human Behavior , 1999 |
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 …
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 …
