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Sustainability Science : An Introduction (2016)

Heinrichs, Harald [Herausgeber] ; Martens, Willem Jozef Meine [Herausgeber] ; Michelsen, Gerd [Herausgeber] ; [et al.]

Dordrecht : Springer Netherlands | Cham : Springer International Publishing AG

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ISBN: 9789401772426 , 9401772428

Language: English

Pages: 1 Online-Ressource (XII, 367 Seiten) , 63 illus., 33 illus. in color.

Edition: 1st ed. 2016

Parallel Title: Erscheint auch als Sustainability Science

DDC: 304.2

RVK:

QT 000

RVK:

TB 6400

RVK:

AR 14300

Keywords: Naturwissenschaften ; Ethik ; Nachhaltigkeit ; Sustainability ; Physical geography ; Social sciences ; Sustainability ; Earth System Sciences ; Society ; Aufsatzsammlung ; Aufsatzsammlung

DOI: 10.1007/978-94-017-7242-6

URL: https://doi.org/10.1007/978-94-017-7242-6

URL: Inhaltsverzeichnis

URL: Ausführliche Beschreibung

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Critical Analysis of Science Textbooks : Evaluating instructional effectiveness (2013)

Khine, Myint Swe

Dordrecht : Springer Netherlands

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ISBN: 9789400741683

Language: English

Pages: Online-Ressource (VII, 312 p. 34 illus, digital)

Series Statement: SpringerLink

Series Statement: Bücher

Parallel Title: Druckausg. Critical analysis of science textbooks

RVK:

TB 4060

RVK:

TB 4056

RVK:

DP 1760

Keywords: Science Study and teaching ; Education ; Education ; Science Study and teaching ; Unterricht ; Effektivität

Abstract: The critical analysis of science textbooks is vital in improving teaching and learning at all levels in the subject, and this volume sets out a range of academic perspectives on how that analysis should be done. Each chapter focuses on an aspect of science textbook appraisal, with coverage of everything from theoretical and philosophical underpinnings, methodological issues, and conceptual frameworks for critical analysis, to practical techniques for evaluation.Contributions from many of the most distinguished scholars in the field give this collection its sure-footed contemporary relevance, r

Description / Table of Contents: Contents; Contributors; Part I: Introduction; Chapter 1: The Criteria for Evaluating the Quality of the Science Textbooks; Introduction; Textbooks in Science Teaching and Learning; The Analysis of the Science Textbooks; Teachers and Textbooks in Science Classroom; Textbooks' Quality Criteria; Conclusion; References; Chapter 2: Development of the Graphical Analysis Protocol (GAP) for Eliciting the Graphical Demands of Science Textbooks; Guidelines for Evaluating the Graphics in Science Textbooks; Complex Categorization Systems: Accounting for Numerous Types

Description / Table of Contents: Teacher-Friendly Classification SystemSimpler Classification Systems; Parts and Steps; Text-Diagram Integration; Application and Discussion; Appendix; Graphical Analysis Protocol (GAP); Working Definitions and Codes; Part I: Text (At This Point You Code at the Page Level); Part II: Graphics (Now You Code at the Individual Graphics); Part III: Integration; References; Part II: Textual and Language Analysis of Science Textbooks; Chapter 3: Understanding the Disciplines of Science: Analysing the Language of Science Textbooks; Introduction; The Study; Vocabulary Diversity

Description / Table of Contents: Contrasting Low Diversity Chapters with High Diversity ChaptersMajor Structural Relations; Patterns of Co-occurrence; Grouping the Chapters; Contrasting Classification Systems; Associations Among the Groupings; Conclusions; References; Corpus Materials; Chapter 4: Towards a More Epistemologically Valid Image of School Science: Revealing the Textuality of School Science Textbooks; School Science and Science in the Public Field; The Concealment of Textuality of School Science Textbooks

Description / Table of Contents: Towards a Proposal for the Disclosure of Textuality of Educational Materials for the Teaching of Natural SciencesTextual Types Revealing Textuality and Thus Enhancing Reflexivity; Dialogue; Theatrical Script (Play); The Attribution of Human Voice to Entities; The Diary; Review of the Literature; Description of Conditions Behind the Authorship of Educational Material Texts; Quotations; Figures of Speech; Irony; Paradox; Hyperbole; Rhetorical Questions; Self-Reference; Reinforcing the Modality of Formalities; Synopsis; Postscriptum; References

Description / Table of Contents: Chapter 5: How Effective Is the Use of Analogies in Science Textbooks?Introduction; Potential Roles of Analogies in Promoting Meaningful Learning; Challenges and Difficulties Associated with Using Analogies in a Classroom Setting; What Does Research Tell Us About How Analogies Should Be Used?; Textbook Analogies; Research About the Effects of Textual Analogies on Learning; How Effective Is Analogy Use in Science Textbooks?; Implications for the Future Use of Analogies in Science Textbooks; Teaching-With-Analogies Model; FAR (Focus, Action, Reflection) Model; Conclusions; References

Description / Table of Contents: Chapter 6: Textual Features and Language Demands of Primary Grade Science Textbooks: The Call for More Informational Texts in Primary Grades

Note: Description based upon print version of record

DOI: 10.1007/978-94-007-4168-3

URL: Volltext

URL: Cover

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Modeling Students' Mathematical Modeling Competencies : ICTMA 13 (2013)

Lesh, Richard ; Galbraith, Peter L. ; Haines, Christopher R. ; [et al.]

Dordrecht : Springer Netherlands

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ISBN: 9789400762718

Language: English

Pages: Online-Ressource (XIV, 651 p. 134 illus, digital)

Series Statement: International Perspectives on the Teaching and Learning of Mathematical Modelling

Series Statement: SpringerLink

Series Statement: Bücher

Parallel Title: Buchausg. u.d.T.

RVK:

DP 4600

RVK:

SM 630

RVK:

TB 4053

RVK:

UB 4049

RVK:

VB 4052

Keywords: Mathematics ; Education ; Education ; Mathematics

Abstract: Modeling Students Mathematical Modeling Competencies offers welcome clarity and focus to the international research and professional community in mathematics, science, and engineering education, as well as those involved in the sciences of teaching and learning these subjects.

Abstract: Modeling Students' Mathematical Modeling Competencies offers welcome clarity and focus to the international research and professional community in mathematics, science, and engineering education, as well as those involved in the sciences of teaching and learning these subjects

Description / Table of Contents: Modeling Students' Mathematical Modeling Competencies; Contents; Contributors; Chapter 1: Introduction: ICTMA and the Teaching of Modeling and Applications; Part I: The Nature of Models & Modeling; Chapter 2: Introduction to Part I Modeling: What Is It? Why Do It?; References; Section 1: What Are Models?; Chapter 3: Modeling Theory for Math and Science Education; 3.1 Introduction; 3.2 Origins of Modeling Theory; 3.3 Models and Concepts; 3.4 Imagination and Intuition; 3.5 Mathematical Versus Physical Intuition; 3.6 Modeling Instruction; 3.7 Conclusions

Description / Table of Contents: 3.8 Epilogue: A New Generation of Mathematical ToolsReferences; Chapter 4: Modeling a Crucial Aspect of Students' Mathematical Modeling; 4.1 Introduction; 4.2 Three Examples; 4.3 The Intricacies of Mathematization; 4.4 Modeling Students' Mathematizations; References; Chapter 5: Modeling Perspectives in Math Education Research; 5.1 Introduction; 5.2 Spesier and Walter on Models; 5.3 Harel on Models; 5.4 Larson on Models; 5.5 Oehrtman on Models; 5.6 Rasmussen and Zandieh on Models; References; Section 2: Where Are Models & Modelers Found?

Description / Table of Contents: Chapter 6: Modeling to Address Techno-Mathematical Literacies in Work6.1 Introduction; 6.2 Methodology; 6.3 Findings; 6.4 Results; 6.4.1 Two Examples: Manufacturing and Statistical Process Control; 6.5 Conclusions; References; Chapter 7: Mathematical Modeling in Engineering Design Projects; 7.1 Introduction; 7.2 Methodology; 7.2.1 Industrial Engineering Undergraduates; 7.2.2 Mechanical Engineering Graduate Students; 7.3 Discussion; 7.4 Conclusion; References; Chapter 8: The Mathematical Expertise of Mechanical Engineers - The Case of Mechanism Design; 8.1 Introduction

Description / Table of Contents: 8.2 Method of Investigation8.3 The Task: Design of Part of a Cutting Device; 8.4 Results and Discussion; 8.5 Conclusions; References; Section 3: What Do Modeling Processes Look Like?; Chapter 9: Modeling and Quantitative Reasoning: The Summer Jobs Problem; 9.1 Theoretical Framework; 9.2 Methods; 9.3 Results; 9.3.1 What Is the Students' Model?; 9.3.2 What Is the Role of Quantities in Students' Models?; 9.3.3 What Is the Role of Quantitative Reasoning in Students' Models?; 9.3.4 What Is the Relationship Between Quantitative Reasoning and Model Development?; 9.4 Discussion; References

Description / Table of Contents: Chapter 10: Tracing Students' Modeling Processes in School10.1 Introduction; 10.2 Theoretical Framework; 10.3 The Present Study; 10.3.1 The Purpose of the Study; 10.3.2 Participants, Modelling Activity, and Procedures; 10.3.3 Data Sources and Analysis; 10.4 Results; 10.4.1 Modelling Processes; 10.4.2 Mathematical Developments; 10.5 Discussion; References; Section 4: What Creates "The Need For Modeling"; Chapter 11: Turning Ideas into Modeling Problems; 11.1 Introduction; 11.2 Approaches to Mathematical Modeling; 11.2.1 Modeling as Vehicle; 11.2.2 Modeling as Content

Description / Table of Contents: 11.3 Educational Rationale

Note: Includes bibliographical references and index

DOI: 10.1007/978-94-007-6271-8

URL: Volltext

URL: Cover

URL: Inhaltstext

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Lenses and Waves : Christiaan Huygens and the Mathematical Science of Optics in the Seventeenth Century (2005)

Dijksterhuis, Fokko Jan

Dordrecht : Springer Netherlands

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ISBN: 9781402026980

Language: English

Pages: Online-Ressource (IX, 289 p, digital)

Series Statement: Archimedes 9

Series Statement: SpringerLink

Series Statement: Bücher

Series Statement: Springer eBook Collection

Series Statement: Humanities, Social Science and Law

Parallel Title: Buchausg. u.d.T. Dijksterhuis, Fokko Jan Lenses and waves

RVK:

TB 2355

RVK:

TB 3187

RVK:

UB 2420

Keywords: Science (General) ; Technology Philosophy ; Mathematics_$xHistory ; Physics History ; Science, general ; Philosophy ; Science, Humanities and Social Sciences, multidisciplinary ; Huygens, Christiaan 1629-1695 ; Optik ; Geschichte

Abstract: From the contents: 1. Introduction – 'The perfect Cartesian' -- 2. 1653 – 'Tractatus' -- 3. 1655-1672 – 'De Aberratione' -- 4. The 'Project' of 1672 -- 5. 1677-1679 – Waves of Light -- 6. 1690 – Traité de la Lumière -- 7. Conclusion: Lenses & Waves -- List of figures -- Bibliography -- Index

Abstract: In 1690, Christiaan Huygens (1629-1695) published Traité de la Lumière, containing his renowned wave theory of light. It is considered a landmark in seventeenth-century science, for the way Huygens mathematized the corpuscular nature of light and his probabilistic conception of natural knowledge. This book discusses the development of Huygens’ wave theory, reconstructing the winding road that eventually led to Traité de la Lumière. For the first time, the full range of manuscript sources is taken into account. In addition, the development of Huygens’ thinking on the nature of light is put in the context of his optics as a whole, which was dominated by his lifelong pursuit of theoretical and practical dioptrics. In so doing, this book offers the first account of the development of Huygens’ mathematical analysis of lenses and telescopes and its significance for the origin of the wave theory of light. As Huygens applied his mathematical proficiency to practical issues pertaining to telescopes – including trying to design a perfect telescope by means of mathematical theory – his dioptrics is significant for our understanding of seventeenth-century relations between theory and practice. With this full account of Huygens’ optics, this book sheds new light on the history of seventeenth-century optics and the rise of the new mathematical sciences, as well as Huygens’ oeuvre as a whole. Students of the history of optics, of early mathematical physics, and the Scientific Revolution, will find this book enlightening

DOI: 10.1007/1-4020-2698-8

URL: lizenzpflichtig

URL: Cover

URL: Inhaltstext

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Reworking the Bench : Research Notebooks in the History of Science (2003)

Holmes, F.L. [HerausgeberIn] ; Renn, J. [HerausgeberIn] ; Rheinberger, Hans-Jörg [HerausgeberIn]

Dordrecht : Imprint: Springer | Dordrecht : Springer Netherlands

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ISBN: 9780306481529

Language: English

Pages: 1 Online-Ressource(XVI, 326 p.)

Edition: 1st ed. 2003.

Series Statement: Archimedes, New Studies in the History and Philosophy of Science and Technology 7

Parallel Title: Erscheint auch als

RVK:

TB 2280

RVK:

TB 2800

Keywords: Epistemology. ; Cultural heritage. ; History. ; Knowledge, Theory of. ; Cultural property. ; History ; Philosophy (General) ; Genetic epistemology ; Humanities ; Aufsatzsammlung ; Wissenschaftliches Manuskript ; Naturwissenschaften ; Geschichte

Abstract: The Hanging Chain: A Forgotten “Discovery” Buried in Galileo’s Notes on Mition -- The Chymical Laboratory Notebooks of George Starkey -- Newton’s Optical Notebooks: Public Versus Private Data -- At Play with Nature: Luigi Galvani’s Experimental Approach to Muscular Physiology -- The Practice of Studying Practice: Analyzing Research Records of Ampère and Faraday -- From Agents to Cells: Theodor Schwann’s Research Notes of the Years 1835–1838 -- Narrating by Numbers: Keeping an Account of Early 19th Century Laboratory Experiences -- Exploring Contents and Boundaries of Experimental Practice in Laboratory Notebooks: Samuel Pierpont Langley and the Mapping of the Infra-Red Region of the Solar Spectrum -- The Pocket Schedule -- From Lone Investigator to Laboratory Chief: Ivan Pavlov’s Research Notebooks as a Reflection of His Managerial and Interpretive Style -- Carl Correns’ Experiments with Pisum, 1896–1899 -- Errors and Insights: Reconstructing the Genesis of General Relativity from Einstein’s Zurich Notebook -- Hans Krebs’ and Kurt Henseleit’s Laboratory Notebooks and Their Discovery of the Urea Cycle-Reconstructed with Computer Models -- Laboratory Notebooks and Investigative Pathways -- The Scholar’s Seeing Eye.

Abstract: Research records composed of notes and protocols have long played a role in the efforts to understand the origins of what have come to be seen as the established milestones in the development of modern science. The use of research records to probe the nature of scientific investigation itself however is a recent development in the history of science. With Eduard Dijksterhuis, we could address them as a veritable "epistemologiCal laboratory". The purpose of a workshop entitled "Reworking the Bench: Laboratory Notebooks in the History of Science", held at the Max Planck Institute for the History of Science in Berlin was to bring together historians who have been exploiting such resources, to compare the similarities and differences in the materials they had used and and to measure the potential and scope for future explorations of "science in the making" based on such forms of documentation. The contributions which form this volume are based on papers presented at this workshop or written afterward by participants in the discussions. This is the first book that addresses the issue of research notes for writing history of science in a comprehensive manner. Its case studies range from the early modern period to present and cover a broad range of different disciplines.

Note: Includes bibliographical references

DOI: 10.1007/0-306-48152-9

URL: lizenzpflichtig

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Research in Science Education — Past, Present, and Future (2001)

Behrendt, Helga [HerausgeberIn] ; Dahncke, Helmut [HerausgeberIn] ; Duit, Reinders [HerausgeberIn] ; [et al.]

Dordrecht : Imprint: Springer | Dordrecht : Springer Netherlands

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ISBN: 9780306476396

Language: English

Pages: 1 Online-Ressource(VIII, 344 p.)

Edition: 1st ed. 2001.

Parallel Title: Erscheint auch als

RVK:

DB 3000

RVK:

TB 4050

Keywords: Learning. ; Instruction. ; Science education. ; Teaching. ; Educational technology. ; Chemistry. ; Humanities. ; Science—Study and teaching. ; Teachers—Training of. ; Learning, Psychology of. ; Social sciences. ; Education ; Chemistry ; Science Study and teaching ; Teachers Training of ; Naturwissenschaftlicher Unterricht ; Naturwissenschaftliche Bildung

Abstract: Views and Visions of Science Education Research -- Science Education Researchers and Research in Transition: Issues and Policies -- Research in Science Education in Europe: Retrospect and Prospect -- Science Content as Problematic - Issues for Research -- Science Education Versus Science in the Academy: Questions - Discussion - Perspectives -- Scientific Literacy — Conceptions and Assessment -- The Assessment of Scientific Literacy in the OECD/PISA Project -- Scientific Literacy: From Theory to Practice -- Making Formative Use of a National Summative Assessment Regime -- A Comparison of STS-teaching and Traditional Physics Lessons - On the Correlation of Physics Knowledge and Taking Action -- Students’ Conceptions -- On the Quantum Thinking of Physics Undergraduates -- Experiences with a Modern Course in Quantum Physics -- Learning Process Studies in the Field of Fractals -- Students’ Understandings of their Internal Structure as Revealed by Drawings -- Personal Context and Continuity of Human Thought; Recurrent Themes in a Longitudinal Study of Pupils’ Understanding of Scientific Phenomena -- Entities of the World and Causality in Children’s Thinking -- Using Media Reports of Science Research in Pupils’ Evaluation of Evidence -- Pupils’ Perceptions of Science Education at Primary and Secondary School -- Teachers’ Conceptions -- Teacher Professionalism and Change: Developing a Professional Self Through Reflective Assessment -- Formative Assessment Using Concept Cartoons: Initial Teacher Training in the UK -- Teaching Chemical Equilibrium in Australian and German Senior High Schools -- The Ideas of Spanish Primary Teachers on how to Develop an Understanding of Processes in Science and their Support in Textbooks -- Pre-service Elementary Teachers Constructing the Nature and Language of Science -- Combining Knowledge of Physics and Chemistry in Teaching: The Behaviour of a Narrow Jet of Water in the Presence of Charged Insulators -- Intuitive Rules: A Theory and its Implications to Mathematics and Science Teacher Education -- Conceptual Change — Teaching and Learning Processes -- Conceptual Change Research and the Teaching of Science -- Rhetoric and Science Education -- Development of Complexity through Dealing with Physical Qualities: One Type of Conceptual Change? -- On the Micro-structure of Analogical Reasoning: The Case of Understanding Chaotic Systems -- Role-playing, Conceptual Change, and the Learning Process: A Case Study of 7th Grade Pupils -- Concept Mapping as a Tool for Research in Science Education -- The Need for and the Role of Metacognition in Teaching and Learning the Particle Model -- Evolving Mental Models of Electric Circuits -- Two Models for a Physical Situation: the Case of Optics. Students’ Difficulties, Teachers’ Viewpoints and Guidelines for a ?Didactic Structure? -- The Influence of a Historically Oriented Course on the Content Knowledge of Students in Optics -- Using Everyday and Scientific Conceptions for Developing Guidelines of Teaching Microbiology -- Teaching and Learning the Concept of the Model in Secondary Schools -- Conceptual Change and Student Diversity: The Case of Volcanism at Primary School -- The Development of Prospective Teachers’ Concerns about Teaching Chemistry Topics at a Macro-micro-symbolic Interface -- How to Enhance Students’ Motivation and Ability to Communicate in Science Class-discourse -- How do Boys and Girls use Language in Physics Classes? -- Instructional Media and Lab Work -- Improving the Use of Instructional Illustrations in Learning Chemistry -- Computing in Stereochemistry - 2D or 3D Representations? -- Learning Physics with Multimedia- and Experimental-supported Workshop Instruction -- Generating Hypotheses in Scientific Enquiry -- Using Laboratory Work for Purposeful Learning about the Practice of Science -- University Students During Practical Work: Can We Make the Learning Process Intelligible? -- Learning About Investigations - The Teacher’s Role -- Point and Set Paradigms in Students’ Handling of Experimental Measurements -- Beyond the Laboratory-learning Physics Using Real-life Contexts.

Abstract: This volume includes articles based on papers presented at the Second International Conference of the European Science Education Research Association (E.S.E.R.A.) held in Kiel, August 31 to September 4, 1999. About 300 colleagues, virtually from around the world - with a particular European focus - participated. Some 200 papers were presented. Three pages synopses of these papers were published in Proceedings of the conference (edited by Michael Komorek, Helga Behrendt, Helmut Dahncke, Reinders Duit, Wolfgang Gräber and Angela Kross). They are available from the IPN homepage: http://www.ipn.uni-kiel.de. The participants were asked to submit contributions to the present volume. It contains the invited plenary lectures and a selection of the submitted contributions based on reviews by an international board and the editors. The volume mirrors main lines of research in science education in Europe and around the world. The invited lectures provide overviews of the growth of science education research from the past to the present, including views of future developments. Major emphasis of empirical research still seems to be students' conceptions and conceptual change. About half of the contributions fall into that category. In addition, most of the remaining contributions deal with various cognitive issues of teaching and learning science. It was surprising for us that the number of studies on affective issues and gender differences was much smaller than expected.

Note: Includes bibliographical references and index

DOI: 10.1007/0-306-47639-8

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Formative Assessment and Science Education (2001)

Bell, Nigel [VerfasserIn] ; Cowie, B. [VerfasserIn]

Dordrecht : Imprint: Springer | Dordrecht : Springer Netherlands

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ISBN: 9780306472275

Language: English

Pages: 1 Online-Ressource(VIII, 148 p.)

Edition: 1st ed. 2001.

Series Statement: Contemporary Trends and Issues in Science Education 12

Parallel Title: Erscheint auch als

RVK:

DP 1609

RVK:

DV 2565

RVK:

TB 4050

Keywords: Science education. ; Assessment. ; Learning. ; Instruction. ; Education. ; Educational tests and measurements. ; Learning, Psychology of. ; Science—Study and teaching. ; Education ; Science Study and teaching ; Educational tests and measurements ; Neuseeland ; Unterrichtsforschung ; Naturwissenschaftlicher Unterricht

Abstract: A Review of the Relevant Literature -- A Case Study of Formative Assessment -- The Characteristics of Formative Assessment -- A Model of Formative Assessment -- Cameos of Formative Assessment -- Learning and Formative Assessment -- Doing Formative Assessment.

Abstract: Formative Assessment and Science Education documents the findings of a research project which investigated the ways in which teachers and students used formative assessment to improve the teaching and learning of science in some New Zealand classrooms. The research documented in this book used the definition of formative assessment as `the process used by teachers and students to recognise and respond to students' learning, in order to enhance that learning, during the learning'. The book contains one detailed case study from the research, as well as cameos of instances of formative assessment. The book also contains two summaries of the research findings - a model developed to describe the process of formative assessment used by the teachers and students involved in the research, and a summary of the characteristics of formative assessment. The findings are also theorised with respect to sociocultural and discursive views of learning. This research will be of interest to graduate students and researchers, as well as teacher educators, curriculum developers, and assessment specialists.

Note: Includes bibliographical references (p. [139]-144) and index

DOI: 10.1007/0-306-47227-9

URL: lizenzpflichtig

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