Your email was sent successfully. Check your inbox.

An error occurred while sending the email. Please try again.

Proceed reservation?

Export
Filter
  • MPI Ethno. Forsch.  (15)
  • Education  (15)
  • Natural Sciences  (15)
Datasource
Material
Language
Years
Author, Corporation
Publisher
Keywords
Subjects(RVK)
  • 1
    Online Resource
    Online Resource
    Pädagogik der Naturwissenschaften : ein Studienbuch (2017)
    Wiesbaden : Springer VS
    Details
    ISBN: 9783531195469
    Language: German
    Pages: 1 Online-Ressource (VII, 248 Seiten) , Illustrationen
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Erscheint auch als Gebhard, Ulrich, 1951 - Pädagogik der Naturwissenschaften
    RVK:
    TB 4056
    RVK:
    UB 4056
    RVK:
    VB 4045
    RVK:
    WB 4049
    Keywords: Teaching ; Education ; Education ; Teaching ; Education ; Teaching ; Teaching and Teacher Education ; Naturwissenschaftlicher Unterricht ; Physikunterricht ; Chemieunterricht ; Biologieunterricht ; Naturwissenschaftlicher Unterricht ; Physikunterricht ; Chemieunterricht ; Biologieunterricht
    Abstract: Eine „Pädagogik der Naturwissenschaften“ fragt einerseits nach gelingendem Lernen und andererseits nach gelingender Bildung mit und durch die Naturwissenschaften. Wenn Lernen und Bildung gelingen sollen, dann wird sich die fachdidaktische Aufmerksamkeit sowohl auf das Subjekt als auch auf das Objekt von Lernen und Bildung im naturwissenschaftlichen Fachunterricht richten müssen. In der Verschränkung von Subjektivierung und Objektivierung sehen wir den fruchtbaren Moment naturwissenschaftlicher Bildungsprozesse, die damit eine gleichermaßen pädagogische wie politische Dimension erhalten. In diesem Buch werden die wesentlichen, theoretisch gehaltvollen Elemente einer kritischen wie modernen Naturwissenschaftsdidaktik diskutiert. Die Lektüre des Buches soll die pädagogisch-didaktische Haltung von Fachdidaktikerinnen und Fachdidaktikern, Studierenden und Lehrkräften inspirieren und theoretisch unterfüttern. Daher akzentuieren wir wesentliche Prämissen, theoretische Grundlegungen und Ziele des naturwissenschaftlichen Unterrichts. Zentrale Problemstellungen einer „Pädagogik der Naturwissenschaften“ werden aus einer integrativen Perspektive bearbeitet. Dabei werden sowohl Bezüge zum disziplinären Physik-, Chemie- und Biologieunterricht als auch zu einem integrierten Fach Naturwissenschaft hergestellt. Ein klarer Theoriebezug steht dabei in einem ausgewogenen Verhältnis zu empirischen Forschungsbefunden und zu Praxisempfehlungen. Die Autoren Dr. Ulrich Gebhard ist Professor für Erziehungswissenschaft unter besonderer Berücksichtigung der Didaktik der Biowissenschaften an der Universität Hamburg. Dr. Dietmar Höttecke ist Professor für Didaktik der Erziehungswissenschaften unter besonderer Berücksichtigung der Didaktik der Physik an der Universität Hamburg. Dr. Markus Rehm ist Professor für Didaktik der Naturwissenschaften an der Pädagogischen Hochschule Heidelberg
    Abstract: Einführung -- Was ist Naturwissenschaft?- Bildungstheoretische Grundlegung -- Naturwissenschaft, Ideologie, Unterricht -- Bildungsstandards und Kompetenzorientierung -- Naturwissenschaftlicher Unterricht -- Alltag und Wissenschaft -- Sprache, Begriff, Denken -- Natur und Naturbeziehung -- Urteilen, Entscheiden, Kommunizieren -- Lernen über die Natur der Naturwissenschaft -- Naturwissenschaften lernen, Naturwissenschaften verstehen -- Vom gefächerten zum integrierten Unterricht
    DOI: 10.1007/978-3-531-19546-9
    URL: Volltext
    URL: Volltext  (lizenzpflichtig)
    URL: Cover
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    BSZ
    MPI Ethno. Forsch.
  • 2
    Online Resource
    Online Resource
    Sprach- und Fachlernen im naturwissenschaftlichen Unterricht : Umgang von Lehrpersonen in soziokulturell heterogenen Klassen mit Bildungssprache (2017)
    Wiesbaden : Springer VS
    Details
    ISBN: 9783658163532
    Language: German
    Pages: 1 Online-Ressource (XVII, 389 Seiten) , Diagramme
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Erscheint auch als Pineker-Fischer, Anna Sprach- und Fachlernen im naturwissenschaftlichen Unterricht
    Dissertation note: Dissertation Universität Bielefeld 2015
    RVK:
    ER 910
    RVK:
    GB 2968
    RVK:
    GB 3035
    RVK:
    ES 860
    RVK:
    TB 4056
    RVK:
    DP 4600
    Keywords: Science education ; Language and languages Study and teaching ; Education ; Education ; Science education ; Language and languages Study and teaching ; Hochschulschrift ; Deutschland ; Naturwissenschaftlicher Unterricht ; Chemieunterricht ; Schüler ; Heterogenität ; Sprachkompetenz ; Sprachliche Ausdrucksfähigkeit ; Lehrer ; Lehrerbildung ; Deutsch ; Fremdsprache ; Schuljahr 10 ; Deutschland ; Naturwissenschaftlicher Unterricht ; Chemieunterricht ; Schüler ; Heterogenität ; Sprachkompetenz ; Sprachliche Ausdrucksfähigkeit ; Lehrer ; Lehrerbildung ; Deutsch ; Fremdsprache ; Naturwissenschaftlicher Unterricht ; Sprachkompetenz ; Sprachliche Ausdrucksfähigkeit ; Chemieunterricht ; Sprachkompetenz ; Sprachliche Ausdrucksfähigkeit ; Schuljahr 10
    Abstract: Anna Pineker-Fischer untersucht bildungssprachliche Anforderungen und Unterstützungsmaßnahmen in der naturwissenschaftlichen Unterrichtskommunikation. Der wissenschaftliche Ertrag der Arbeit liegt in der umfassenden und systematischen Analyse von theoretischen Aspekten einer sprachförderlichen Unterrichtsinteraktion. Des Weiteren leistet das Werk einen Beitrag zur empirischen Klärung der Frage, welche Kategorien und welche Instrumente sich für eine Untersuchung der kognitiven und sprachlichen Seite der Unterrichtsinteraktion im Fach Chemie eignen. Exemplarisch werden Möglichkeiten für einen sprachsensiblen Fachunterricht aufgezeigt. Der Inhalt Systematisierung von Alltags-, Bildungs- und Fachsprache Sprachliche und kognitive Anforderungen in der naturwissenschaftlichen Unterrichtskommunikation Grundelemente eines sprachsensiblen Fachunterrichts chlernen Die Zielgruppen Dozierende und Studierende der Pädagogik und der Fakultät für Deutsch als Zweitsprache Lehrerinnen und Lehrer, Referendarinnen und Referendare, die ihren Fachunterricht sprachsensibel gestalten und reflektieren wollen Die Autorin Dr. Anna Pineker-Fischer ist wissenschaftliche Mitarbeiterin an der Universität Duisburg-Essen. Nach ihrem Lehramtsstudium war sie wissenschaftliche Mitarbeiterin an der Universität Bielefeld und hat dort an der Fakultät für Erziehungswissenschaft promoviert
    Abstract: Systematisierung von Alltags-, Bildungs- und Fachsprache -- Sprachliche und kognitive Anforderungen in der naturwissenschaftlichen Unterrichtskommunikation -- Grundelemente eines sprachsensiblen Fachunterrichts -- Empirische Befunde zum Zusammenhang von Sprach- und Fachlernen
    DOI: 10.1007/978-3-658-16353-2
    URL: Volltext
    URL: Volltext  (lizenzpflichtig)
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    BSZ
    MPI Ethno. Forsch.
  • 3
    Online Resource
    Online Resource
    Science Teachers’ Use of Visual Representations (2014)
    Dordrecht : Springer
    Details
    ISBN: 9783319065267
    Language: English
    Pages: Online-Ressource (VIII, 338 p. 65 illus, online resource)
    Series Statement: Models and Modeling in Science Education 8
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Druckausg. Science teachers' use of visual representations
    RVK:
    DP 4600
    RVK:
    ZX 7240
    RVK:
    TB 4056
    RVK:
    DP 1960
    RVK:
    AL 34330
    Keywords: Science Study and teaching ; Education ; Education ; Science Study and teaching ; Education ; Science Study and teaching ; Aufsatzsammlung ; Hochschule ; Lehre ; Visualisierung
    Abstract: This book examines the diverse use of visual representations by teachers in the science classroom. It contains unique pedagogies related to the use of visualization, presents original curriculum materials as well as explores future possibilities. The book begins by looking at the significance of visual representations in the teaching of science. It then goes on to detail two recent innovations in the field: simulations and slowmation, a process of explicit visualization. It also evaluates the way teachers have used different diagrams to illustrate concepts in biology and chemistry. Next, the book explores the use of visual representations in culturally diverse classrooms, including the implication of culture for teachers’ use of representations, the crucial importance of language in the design and use of visualizations, and visualizations in popular books about chemistry. It also shows the place of visualizations in the growing use of informal, self-directed science education. Overall, the book concludes that if the potential of visualizations in science education is to be realized in the future, the subject must be included in both pre-service and in-service teacher education. It explores ways to develop science teachers’ representational competence and details the impact that this will have on their teaching. The worldwide trend towards providing science education for all, coupled with the increased availability of color printing, access to personal computers and projection facilities, has lead to a more extensive and diverse use of visual representations in the classroom. This book offers unique insights into the relationship between visual representations and science education, making it an ideal resource for educators as well as researchers in science education, visualization and pedagogy
    Description / Table of Contents: Section A: Research into teaching with visual representationsIntroduction -- Chapter 1 : The significance of visual representations in the teaching of science, B. Eilam, J.K. Gilbert -- Chapter 2 : Teaching and researching visual representations: Shared vision or divided world? S. Ainsworth & L. Newton -- Section B: Teachers’ selections, constructions and use of visual representations -- Introduction -- Chapter 3 : Representing visually: What teachers know and what they prefer, B. Eilam, Y. Poyas, R. Hasimshoni -- Chapter 4 : Slowmation: A process of explicit visualisation, J. Loughran -- Chapter 5 : Secondary biology teachers’ use of different types of diagrams for different purposes, Y. Liu, M. Won, D.F. Treagust -- Chapter 6 : Teaching stoichiometry with particulate diagrams - linking macro phenomena and chemical equations, M.W. Cheng, J.K. Gilbert -- Section C: Teachers’ use of visual representations in culturally-diverse classrooms -- Introduction -- Chapter 7 : Thoughts on visualizations in diverse cultural settings: The case of France and Pakistan, E. De Vries, M. Ashraf -- Chapter 8 : The implication of culture for teachers’ use of representations, B. Waldrip, S. Satupo, F. Rodie -- Chapter 9 : The interplay between language and visualization: The role of the teacher, L. Mammino -- Chapter 10: Visualizations in popular books about chemistry, J.K. Gilbert, A. Afonso -- Section D: Teachers’ supporting student learning from visual representations -- Introduction -- Chapter 11 : Teachers using interactive simulations to scaffold inquiry instruction in physical science education, D. Geelan, X.Fan -- Chapter 12: Transformed instruction: Teaching in a student-generated representations learning environment, O. Parnafes, R. Trachtenberg-Maslaton -- Chapter 13: The laboratory for making things: Developing multiple representations of knowledge, J. Bamberger -- Section E: Overview -- Chapter 14: Developing science teachers’ representational competence and its impact on their teaching, J.K.Gilbert, B. Eilam.
    Note: Description based upon print version of record
    DOI: 10.1007/978-3-319-06526-7
    URL: Volltext
    URL: Volltext  (lizenzpflichtig)
    URL: Cover
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    BSZ
    MPI Ethno. Forsch.
  • 4
    Online Resource
    Online Resource
    Science Education for Diversity : Theory and Practice (2013)
    Dordrecht : Springer
    Details
    ISBN: 9789400745636
    Language: English
    Pages: Online-Ressource (XX, 379 p. 46 illus, digital)
    Series Statement: Cultural Studies of Science Education 8
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Druckausg. Science education for diversity
    RVK:
    TB 4056
    Keywords: Science Study and teaching ; Religion and education ; Education ; Education ; Science Study and teaching ; Religion and education ; Pädagogische Soziologie
    Abstract: Reflecting the very latest theory on diversity issues in science education, including new dialogic approaches, this volume explores the subject from a range of perspectives and draws on studies from around the world. The work discusses fundamental topics such as how we conceptualize diversity as well as examining the ways in which heterogeneous cultural constructs influence the teaching and learning of science in a range of contexts. Including numerous strategies ready for adoption by interested teachers, the book addresses the varied cultural factors that influence engagement with science education. It seeks answers to the question of why increasing numbers of students fail to connect with science education in schools and looks at the more subtle impact that students’ individually constructed identities have on the teaching and learning of science. Recognizing the diversity of its audience, the book covers differing levels and science subjects, and examines material from a range of viewpoints that include pedagogy, curricula, teacher education, learning, gender, religion, and ICT, as well as those of in-service and trainee teachers at all levels
    Description / Table of Contents: Contents; Why Science Education for Diversity?; Introduction; What Do We Mean by Diversity?; Social and Historical Context; Cultural Diversity and Science Education; Sociocultural and Dialogic Perspectives; Tensions and Dilemmas; Argument and Structure of This Book; References; Part I: Science Education Reform for Diversity; Dialogic Science Education for Diversity; Introduction: The Science Education for Diversity Project; What Is Science?; Monologic, Dialogic and Diversity; How Do We Conceptualise Diversity?; Developing a Framework for Science Education for Diversity
    Description / Table of Contents: How Do We Make Science Education More Relevant?Will Inquiry-Based Science Education (IBSE) Help?; Explicitly Dialogic Pedagogy; Connecting to Real Science; Mastery Learning Combined with Dialogic Science Pedagogy; Teaching the Nature of Science; Teaching Thinking in Science and Through Science; The Role of ICT; The Need for Guided Collaborative Critical Reflection on Action; Summary and Conclusion; References; Expanding Notions of Scientific Literacy: A Reconceptualization of Aims of Science Education in the Knowledge Society
    Description / Table of Contents: The "Two Cultures" and the Need for a Broader Notion of Scientific LiteracyScientific Literacy Reconceptualized; Science Engagement Curriculum Policy Images; Science and the Public: An Online Graduate Program; The Inconvenient Truth: A Documentary on Global Warming; Oceanside Community Science Project (Roth and Lee 2004; Roth and Calabrese 2004); Conclusions; References; Activity, Subjectification, and Personality: Science Education from a Diversity-of-Life Perspective; Cultural-Historical Activity Theory; Activity and Actions; Subjectification; Personality; On the Way to Become a Doctor
    Description / Table of Contents: Early Activities and RelationsHigh School Science; Science Internship; College Science; Resident Care Assistant; Coda; References; Reflexivity and Diversity in Science Education Research in Europe: Towards Cultural Perspectives; Introduction; Cultural Studies and Issues of Diversity in Science Education; The State of the Art of Cultural Studies of Science Education in Europe; Reflexivity: Theoretical Barriers and Horizons; Towards Cultural Studies as a Unifying Research Paradigm; References; Part II: From Learning to Pedagogy; Science Education for Diversity and Informal Learning
    Description / Table of Contents: Importance of Informal Environments for Learning ScienceKey Features of Science Learning in Informal Environments; Activation of Prior Knowledge; Acknowledging and Valuing Multiple Perspectives; Sociocultural Frameworks for Informal Science Learning; Sociocultural Approach with Individual Science Learning Goals: Social Constructivism; Sociocultural Approach with Community Learning Goals: Collective Praxis; The Practice of Informal Science Education for Diversity; Examples of the Impact of Exhibit Design on Collaborative Talk; Involving Diverse Groups in Development of Programs and Exhibits
    Description / Table of Contents: Step 1
    Description / Table of Contents: Introduction -- Why science education for diversity? Nasser Mansour and Rupert Wegerif -- Part 1. Science education reform for diversity -- Chapter 1: Dialogic Science Education for Diversity, Rupert Wegerif, Keith Postlethwaite, Nigel Skinner, Nasser Mansour, Alun Morgan, Lindsay Hetherington -- Chapter2: Expanding Notions of Scientific Literacy: A Re-conceptualization of Aims of Science Education in the Knowledge Society, Xiufeng Liu -- Chapter3: Activity, Subjectification, and Personality: Science Education from a Diversity-of-Life Perspective, Wolff-Michael Roth, University of Victoria -- Chapter 4: Reflexivity and diversity in research on science education: A European account, Michiel van Eijck -- Part 2, from learning to pedagogy -- Chapter 5: Science education for diversity and informal learning, Loran E. Parker and Gerald H. Krockover -- Chapter 6: Diverse, disengaged and reactive: A teacher’s adaptation of ethical dilemma story pedagogy as a strategy to re-engage learners in education for sustainability,  Elisabeth Taylor, Peter Charles Taylor and MeiLing Chow -- Chapter 7: Tracing science in the early childhood classroom: the historicity of multi-resourced discourse practices in multilingual interaction, Charles Max, Gudrun Ziegler and Martin Kracheel -- Chapter 8: Conceptual frameworks, metaphysical commitments and worldviews: the challenge of reflecting the relationships between science and religion in science education, Keith S. Taber -- Chapter 9: Science Curriculum Reform on “Scientific Literacy for All” across National Contexts: Case Studies of Curricula from England and Hong Kong, Sibel Erduran and Siu Ling Wong -- Part 3 science teacher Education and diversity -- Chapter 10: Science teachers' cultural beliefs and diversities: A sociocultural perspective to science education, Nasser Mansour -- Chapter 11: Envisioning Science Teacher Preparation for Diversity in 21st Century Classrooms: Some Tensions, Norm Thomson, Deborah J. Tippins -- Chapter12: Expanded agency in multilingual science teacher training classrooms, Silvia Lizette Ramos De Robles & Mariona Espinet -- Part 4  Cultural issues in science Education -- Chapter 13: Re-conceptualizing a lifelong science education system that supports diversity: The role of free-choice learning, Lynn D. Dierking -- Chapter 14: Ignoring half the Sky: A feminist critique of science education’s knowledge society, Kathryn Scantlebury, Anita Hussénius, Kristina Andersson and Annica Gullberg -- Chapter 15: Religion in Science Education, Michael J. Reiss -- Chapter 16: Students’ perceptions of apparent contradictions between science and religion: Creation is only the beginning, Berry Billingsley -- Chapter 17: Gender and science in the Arab states: Current status and future prospects, Saouma BouJaoude & Ghada Gholam.
    Note: Description based upon print version of record
    DOI: 10.1007/978-94-007-4563-6
    URL: Volltext
    URL: Volltext  (lizenzpflichtig)
    URL: Cover
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    BSZ
    MPI Ethno. Forsch.
  • 5
    Online Resource
    Online Resource
    Critical Analysis of Science Textbooks : Evaluating instructional effectiveness (2013)
    Dordrecht : Springer Netherlands
    Details
    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: Volltext
    URL: Cover
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    BSZ
    MPI Ethno. Forsch.
  • 6
    Online Resource
    Online Resource
    Modeling Students' Mathematical Modeling Competencies : ICTMA 13 (2013)
    Dordrecht : Springer Netherlands
    Details
    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: Volltext
    URL: Cover
    URL: Inhaltstext
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    BSZ
    MPI Ethno. Forsch.
  • 7
    Online Resource
    Online Resource
    Science Education Research and Practice in Europe : Retrosspective and Prospecctive (2012)
    Rotterdam : SensePublishers
    Details
    ISBN: 9789460919008
    Language: English
    Pages: Online-Ressource (VIII, 394 p, digital)
    Series Statement: Cultural Perpectives in Science Education 5
    Series Statement: Cultural and Historical Perspectives on Science Education 13/5
    Series Statement: Educational Research E-Books Online, Collection 2005-2017, ISBN: 9789004394001
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Erscheint auch als Science Education Research and Practice in Europe: Retrospective and Prospective
    RVK:
    TB 4056
    RVK:
    DP 4600
    Keywords: Science Study and teaching ; Education ; Education
    Abstract: Preliminary Material /Doris Jorde and Justin Dillon -- Science Education Research and Practice in Europe: Retrospective and Prospective /Doris Jorde and Justin Dillon -- The Model of Educational Reconstruction – A Framework for Improving Teaching and Learning Science /Reinders Duit , Harald Gropengießer , Ulrich Kattmann , Michael Komorek and Ilka Parchmann -- Transcending Science: Scientific Literacy and Bildung for the 21st Century /Per-Olof Wickman , Caroline Liberg and Leif Östman -- How Research on Students’ Processes of Concept Formation can Inform Curriculum Development /Claudia V. Aufschnaiter and Christian Rogge -- Studies of the Development of Students’ Understandings of Ecological Phenomena /Gustav Helldén -- Video Analysis as a tool for Understanding Science Instruction /Hans E. Fischer and Knut Neumann -- The Nature of Video Studies in Science Education /Andrée Tiberghien and Gérard Sensevy -- Teaching Activities and Language use in Science Classrooms /Marianne Ødegaard and Kirsti Klette -- Results and Perspectives from the ROSE Project /Svein Sjøberg and Camilla Schreiner -- The Cultural Context of Science Education /Cathrine Hasse and Anne B. Sinding -- Argumentation in Science Education Research: Perspectives from Europe /Sibel Erduran and Maria Pilar Jiménez-Aleixandre -- Classroom Discourse and Science Learning: Issues of Engagement, Quality and Outcome /Asma Almahrouqi and Phil Scott -- School Health Education Nowadays: Challenges and Trends /Graça S. Carvalho and Dominique Berger -- Science Education Research in Turkey: A Content Analysis of Selected Features of Published Papers /Mustafa Sozbilir , Hulya Kutu and M. Diyaddin Yasar -- Improving Science Education Through European Models of Sustainable Teacher Professional Development /Matthias Stadler and Doris Jorde.
    Abstract: Each volume in the 7-volume series The World of Science Education reviews research in a key region of the world. These regions include North America, South and Latin America, Asia, Australia and New Zealand, Europe, Arab States, and Sub-Saharan Africa. The focus of this Handbook is on science education in Europe. In producing this volume the editors have invited a range of authors to describe their research in the context of developments in the continent and further afield. In reading this book you are invited to consider the historical, social and political contexts that have driven developments in science education research over the years. A unique feature of science education in Europe is the impact of the European Union on research and development over many years. A growing number of multi-national projects have contributed to the establishment of a community of researchers increasingly accepting of methodological diversity. That is not to say that Europe is moving towards homogeneity, as this volume clearly shows
    Description / Table of Contents: ""Science Education Research and Practice in Europe""; ""ACKNOWLEDGEMENTS""; ""CONTENTS""; ""1. SCIENCE EDUCATION RESEARCH AND PRACTICEIN EUROPE: RETROSPECTIVE AND PROSPECTIVE""; ""INTRODUCTION""; ""WHAT COUNTS AS EUROPE?""; ""A RETROSPECTIVE LOOK AT SCIENCE EDUCATION IN EUROPE""; ""England: An Example of the Development of Science Education in Europe""; ""RESEARCH IN SCIENCE EDUCATION IN EUROPE""; ""POLICY TEXTS AND THE NATURE OF SCIENCE EDUCATION""; ""SCIENCE EDUCATION RESEARCH AND DEVELOPMENT IN THE EU""; ""REFERENCES""; ""AFFILIATIONS""
    Description / Table of Contents: ""2. THE MODEL OF EDUCATIONAL RECONSTRUCTION � A FRAMEWORK FOR IMPROVING TEACHING AND LEARNING SCIENCE""""OVERVIEW""; ""ON THE INTERRDISCIPLINARRY NATURE OFF SCIENCE EDDUCATION""; ""TRADITIONS OF SCIENCE EDUCATION RESEARCH""; ""THE GERMAN TRADITION OF BILDUNG AND DIDAKTIK""; ""THE MODEL OF EDUCATIONAL RECONSTRUCTION""; ""Introductory Remarks""; ""Epistemological Orientation""; ""Overview of the Model""; ""Component (1): Clarification and Analysis of Science Content""; ""Component (2): Research on Teaching and Learning""
    Description / Table of Contents: ""Component (3): Design and Evaluation of Teaching and Learning Environments""""The Recursive Process of Educational Reconstruction""; ""The Model of Educational Reconstruction and Other Models of Instructional Design""; ""CONCLUSIONS � ON THE ROLE OF THE MODEL OF EDUCATIONAL""; ""The Model of Educational Reconstruction as a Framework for Science Education Research""; ""Conceptual Reconstruction""; ""The Model of Educational Reconstruction as a Model for Teacher Professional Development""; ""The Model of Educational Reconstruction for Teacher Education""; ""CODA""; ""NOTES""; ""REFERENCES""
    Description / Table of Contents: ""AFFILIATIONS""""3. TRANSCENDING SCIENCE: SCIENTIFIC LITERACY AND BILDUNG FOR THE 21ST CENTURY ""; ""OVERVIEW""; ""INTRODUCTION""; ""Bildung""; ""Vision 1 and Vision 2""; ""Transcending Science""; ""THE DIMENSION OF NORMATIVITY""; ""Moral/ethical""; ""Political""; ""Norms""; ""Aesthetics""; ""Transformation""; ""TEACHING AND LEARNING SCIENCE AS ACTION""; ""Situating Science in an Activity""; ""The Quest for Relevant Activities""; ""A Pragmatist Interpretation""; ""Developing Science Activities""; ""LANGUAGE AND SCIENCE EDUCATION""; ""Modes of Communication""; ""Language Dimensions""
    Description / Table of Contents: ""CONCLUDING REMARKS""""ACKNOWLEDGEMENTS""; ""REFERENCES""; ""4. HOW RESEARCH ON STUDENTS� PROCESSES OF CONCEPT FORMATION CAN INFORM CURRICULUM DEVELOPMENT""; ""ABSTRACT""; ""INTRODUCTION""; ""A BRIEF CRITICAL DISCUSSION OF RESEARCH ON CONCEPTUAL CHANGE""; ""Theoretical Descriptions of Concepts and Conceptual Change""; ""Concepts""; ""Conceptual Change""; ""Empirical Approaches towards Investigating Conceptual Change""; ""CONCLUSIONS""; ""SAMPLE, PROCEDURES, AND METHODS""; ""Procedures and Samples""; ""Methods""; ""EMPIRICAL RESULTS ON STUDENTS� PROCESSES OF CONCEPT FORMATION""
    Description / Table of Contents: ""Conceptual Qualities""
    Note: Includes bibliographical references
    DOI: 10.1007/978-94-6091-900-8
    URL: Volltext  (lizenzpflichtig)
    URL: Volltext  (lizenzpflichtig)
    URL: Cover
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    BSZ
    MPI Ethno. Forsch.
  • 8
    Online Resource
    Online Resource
    Advances in Nature of Science Research : Concepts and Methodologies (2012)
    Dordrecht : Springer Science+Business Media B.V
    Details
    ISBN: 9789400724570 , 1283456427 , 9781283456425
    Language: English
    Pages: Online-Ressource (X, 268p. 16 illus, digital)
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Buchausg. u.d.T. Advances in nature of science research
    RVK:
    DP 4600
    RVK:
    VB 4052
    RVK:
    UB 4049
    RVK:
    TB 4053
    RVK:
    SM 630
    Keywords: Curriculum planning ; Science Study and teaching ; Education ; Education ; Curriculum planning ; Science Study and teaching ; Science ; Study and teaching ; Science ; Philosophy ; Wissenschaft ; Wissenschaftstheorie ; Empirische Forschung ; Naturwissenschaftlicher Unterricht
    Abstract: This book consolidates contemporary thinking and research efforts in teaching and learning about the nature of science in science education. The term 'Nature of Science' (NoS) has appeared in the science education literature for many decades. While there is still a controversy among science educators about what constitutes NoS, educators are unanimous in acknowledging the importance of this topic as well as the need to make it explicit in teaching science. The general consensus is that the nature of science is an intricate and multifaceted theme that requires continued scholarship
    Abstract: This book consolidates contemporary thinking and research efforts in teaching and learning about the nature of science in science education. The term 'Nature of Science' (NoS) has appeared in the science education literature for many decades. While there is still a controversy among science educators about what constitutes NoS, educators are unanimous in acknowledging the importance of this topic as well as the need to make it explicit in teaching science. The general consensus is that the nature of science is an intricate and multifaceted theme that requires continued scholarship. Recent anal
    Description / Table of Contents: pt. 1. Conceptual issues in the nature of science research -- pt. 2. Methodological advances in the nature of science research.
    Note: Includes bibliographical references and index
    DOI: 10.1007/978-94-007-2457-0
    URL: Volltext
    URL: Volltext  (lizenzpflichtig)
    URL: Cover
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    MPI Ethno. Forsch.
  • 9
    Online Resource
    Online Resource
    Perspectives on Scientific Argumentation : Theory, Practice and Research (2012)
    Dordrecht : Springer Science+Business Media B.V
    Details
    ISBN: 9789400724709 , 1283456435 , 9781283456432
    Language: English
    Pages: Online-Ressource (XII, 290p. 40 illus, digital)
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Buchausg. u.d.T. Perspectives on scientific argumentation
    RVK:
    TB 4000
    Keywords: Curriculum planning ; Science Study and teaching ; Education ; Education ; Curriculum planning ; Science Study and teaching ; Science ; Methodology ; Logic ; Aufsatzsammlung ; Wissenschaft ; Methodologie ; Dewey, John 1859-1952 Logic ; Wissenschaft ; Methodologie ; Dewey, John 1859-1952 Logic ; Aufsatzsammlung
    Abstract: 4205 Introduction /Jonathan Osborne --The two faces of scientific argumentation :applications to global climate change /E. Michael Nussbaum, Gale M. Sinatra, and Marissa C. Owens --The importance of embedding argument within science classrooms /Andy Cavagnetto and Brian Hand --Scientific reasoning and argumentation from a Bayesian perspective /Evan Szu and Jonathan Osborne --Students' framings and their participation in scientific argumentation /Leema Kuhn Berland and David Hammer --The design and enactment of argumentation activities /Shirley Simon, Katherine Richardson, and Ruth Amos --Argumentation and reasoning in life and in school :implications for the design of school science learning environments /Leah A. Bricker and Philip Bell --Argumentation and evaluation intervention in science classes :teaching and learning with Toulmin /Janis A. Bulgrena and James D. Ellis --Research on critique and argumentation from the technology enhanced learning in science center /Douglas B. Clark --Evaluating arguments about climate change /Adam Corner --The effects of university students' argumentation on socio-scientific issues via on-line discussion in their informal reasoning regarding this issue /Yin-Tien Wu and Chin-Chung Tsai --The development and validation of the assessment of Scientific Argumentation in the Classroom (ASAC) observation protocol :a tool for evaluating how students participate in scientific argumentation /Victor Sampson, Patrick J. Enderle, and Joi Phelps Walker --Beyond argumentation :sense-making discourse in the science classroom /Scott P. McDonald and Gregory J. Kelly --Development of argumentative knowledge in science education /Myint Swe Khine
    Abstract: Argumentation-arriving at conclusions on a topic through a process of logical reasoning that includes debate and persuasion- has in recent years emerged as a central topic of discussion among science educators and researchers. There is now a firm and general belief that fostering argumentation in learning activities can develop students' critical thinking and reasoning skills, and that dialogic and collaborative inquiries are key precursors to an engagement in scientific argumentation. It is also reckoned that argumentation helps students assimilate knowledge and generate complex meaning. The
    Description / Table of Contents: pt. 1. Theoretical premises of the study of argumentation -- pt. 2. Practice perspectives in argumentation -- pt. 3. Researching argumentation in science education.
    Note: Includes bibliographical references and index
    DOI: 10.1007/978-94-007-2470-9
    URL: Volltext
    URL: Volltext  (lizenzpflichtig)
    URL: Cover
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    MPI Ethno. Forsch.
  • 10
    Online Resource
    Online Resource
    Second International Handbook of Science Education (2012)
    Dordrecht : Springer Science+Business Media B.V
    Details
    ISBN: 9781402090417
    Language: English
    Pages: Online-Ressource , v.: digital
    Edition: Online-Ausg. Springer eBook Collection. Humanities, Social Science and Law
    Series Statement: Springer International Handbooks of Education 24
    DDC: 507.1
    RVK:
    DB 2000
    RVK:
    TB 4056
    Keywords: Education ; Education Philosophy ; Science Study and teaching
    Abstract: Campbell J. McRobbie
    Abstract: The International Handbook of Science Education is a two volume edition pertaining to the most significant issues in science education. It is a follow-up to the first Handbook, published in 1998, which is seen as the most authoritative resource ever produced in science education. The chapters in this edition are reviews of research in science education and retain the strong international flavor of the project. It covers the diverse theories and methods that have been a foundation for science education and continue to characterize this field. Each section contains a lead chapter that provides a
    Description / Table of Contents: Second International Handbook of Science Education; Preface; Contents of Part One; Contents of Part Two; Part I: Sociocultural Perspectives and Urban Education; Chapter 1: Sociocultural Perspectives on Science Education; Illuminating Science Education with Sociocultural Theory; Making Sense of What Happens in Science Classes; My Framework; Structures as Affordances for Enactment; Solidarity and Science Education; Cosmopolitanism; Cogenerative Dialogue; Speaking for Others; Maintaining Focus; Radical Listening; Expanding Participants' Roles; Curriculum Change
    Description / Table of Contents: Cross-Field Production and Creation of CultureProsody and Emotions; Potential for Change; Acknowledgment; References; Chapter 2: Understanding Engagement in Science Education: The Psychological and the Social; Conceptions of Engagement; Moving from the Individual to the Collective: Emotional Engagement as Social and Temporal; The Primacy of Emotional Engagement: Theoretical Perspectives; The Role of Collective Emotional Engagement in the Emotional, Behavioural and Cognitive Engagement of Individuals; Interaction Rituals and Engagement: Implications; References
    Description / Table of Contents: Chapter 3: Identity-Based Research in Science EducationIntroduction; Theoretical Frameworks in Identity Research; Figured Worlds and Practice Theories; Discursive Stances; Activity Theory; Identity-Based Studies in Science Education; Global Identities Among Immigrant Students; Positional Identity and Science Teacher Professional Development; Differential Identities from a Common Curriculum; Conclusions; References; Chapter 4: Diverse Urban Youth's Learning of Science Outside School in University Outreach and Community Science Programs; A Brief Historical Account of Informal Science Practices
    Description / Table of Contents: Two Kinds of Programs: Outreach and Youth Centered ProgramsPrograms Reaching Out to Youth: The Case of Math and Science Upward Bound; Youth-Driven Community Science Programs: Some Examples; Discussion; Conclusion; References; Chapter 5: Reality Pedagogy and Urban Science Education: Towards a Comprehensive Understanding of the Urban Science Classroom; Problematising Science Education for Urban Students of Colour; The Silencing of Urban Youth Voice in Urban Science Education; Urban Science Education; The Needs of Urban Youth in an Urbanised World
    Description / Table of Contents: Science Education in Urban Settings or Urban Science EducationMoving Towards a Focus on Reality; From Pedagogy of Poverty to Reality Pedagogy; Defining Reality Pedagogy; Enacting Reality Pedagogy; Steps Towards Reality Pedagogy in the Classroom; A Focus on the Three Cs: Co-generative Dialogues, Co-teaching and Cosmopolitanism; Conclusions; References; Chapter 6: Learning Science Through Real-World Contexts; Use of Context in Science Education; Outcomes from International Studies on Context-Based Approaches; Relevance; Interest/Attitude/Motivation; Deeper Understanding
    Description / Table of Contents: Recent Developments in Australia
    Note: Description based upon print version of record
    DOI: 10.1007/978-1-4020-9041-7
    URL: Volltext  (lizenzpflichtig)
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    MPI Ethno. Forsch.
  • 11
    Online Resource
    Online Resource
    Models and Modeling : Cognitive Tools for Scientific Enquiry (2011)
    Dordrecht : Springer Science+Business Media B.V
    Details
    ISBN: 1283086115 , 9789400704497 , 9781283086110
    Language: English
    Pages: Online-Ressource , v.: digital
    Edition: Online-Ausg. Springer eBook Collection. Humanities, Social Science and Law Electronic reproduction; Available via World Wide Web
    Series Statement: Models and Modeling in Science Education 6
    DDC: 507.1
    RVK:
    DP 4600
    RVK:
    DP 4630
    RVK:
    SM 630
    RVK:
    TB 4053
    RVK:
    UB 4049
    RVK:
    VB 4052
    RVK:
    WB 1027
    Keywords: Education ; Science Study and teaching
    Abstract: The process of developing models, known as modeling, allows scientists to visualize difficult concepts, explain complex phenomena and clarify intricate theories. In recent years, science educators have greatly increased their use of modeling in teaching, especially real-time dynamic modeling, which is central to a scientific investigation. Modeling in science teaching is being used in an array of fields, everything from primary sciences to tertiary chemistry to college physics, and it is sure to play an increasing role in the future of education. Models and Modeling: Cognitive Tools for Scientific Enquiry is a comprehensive introduction to the use of models and modeling in science education. It identifies and describes many different modeling tools and presents recent applications of modeling as a cognitive tool for scientific enquiry.
    Description / Table of Contents: pt. 1. Theory formation and modeling in science education -- pt. 2. Modeling and student learning in science educatin -- pt. 3. Modeling and teachers' knowledge.
    Note: Includes bibliographical references and indexes , Electronic reproduction; Available via World Wide Web
    DOI: 10.1007/978-94-007-0449-7
    URL: Volltext  (lizenzpflichtig)
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    MPI Ethno. Forsch.
  • 12
    Online Resource
    Online Resource
    The Invention of Science : Why History of Science Matters for the Classroom (2011)
    Rotterdam : SensePublishers
    Details
    ISBN: 9789460915253
    Language: English
    Pages: Online-Ressource (X, 181p, digital)
    Series Statement: Cultural Perspectives in Science Education: Research Dialogs 4
    Series Statement: Educational Research E-Books Online, Collection 2005-2017, ISBN: 9789004394001
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Buchausg. u.d.T.
    DDC: 509
    RVK:
    TB 2300
    Keywords: Education ; Science History ; Study and teaching ; Science Study and teaching ; Science Study and teaching ; Education
    Abstract: Preliminary Material -- What is Science? -- Making Arguments -- Warring Cosmologies and the Emergence of Eurocentric Science -- Valuing Patterns and the Continuing Emergence of Eurocentric Science -- Just the Facts, Please -- Understanding and Explanation -- Understanding Discourses in Science and Science Education -- Final Comments.
    Abstract: The Invention of Science: Why History of Science Matters for the Classroom introduces readers to some of the developments that were key for the emergence of Eurocentric science, the discipline we call science. Using history this book explores how human groups and individuals were key to the invention of the discipline of we call science. All human groups have a need and desire to produce systematic knowledge that supports their ongoing survival as a community. This book examines how history can help us to understand emergence of Eurocentric science from local forms of systematic knowledge. Each chapter explores elements that were central to the invention of science including beliefs of what was real and true, forms of reasoning to be valued, and how the right knowledge should be constructed and the role of language. But most importantly this book presented these ideas in an accessible way with activities and questions to help readers grapple with the ideas being presented. Enjoy!
    Description / Table of Contents: The Invention of Science; TABLE OF CONTENTS; PREFACE; HISTORIOGRAPHY; Theoretical Lens; Great men change history.; Historical forces.; How societies/civilizations respond to a crisis of ideas or technology determines whether they will survive.; Dialectical argument.; Geography determines the character of people and gives them advantages and disadvantages.; The outcome of ideas and practices coming together and their effect cannot be predicted.; The relationship between history and the writing of history is ambiguous.; THE NEED FOR A HISTORY OF SCIENCE; NOTES; CHAPTER 1: WHAT IS SCIENCE?
    Description / Table of Contents: Activity: What is science?TAKING A DIFFERENT VIEW; SCIENCE, EUROCENTRIC SCIENCE (ES), AND INDIGENOUS KNOWLEDGE (IK); Universal and Pluralist Models of Science in Science Education; Question.; Activity; Activity; SO WHAT IS SYSTEMATIC KNOWLEDGE AND WHAT ARE THE ORIGINS OF SCIENCE?; Emerging Systematic Knowledge; NOTES; CHAPTER 2: MAKING ARGUMENTS; Activity; WHAT KNOWLEDGE IS OF MOST WORTH: THE PHILOSOPHIES OF PLATO AND ARISTOTLE; Politics; best regulated states will not permit a mechanic to be a citizen; ; practical,; theoretical; productive; Reasoning and Logic; Dialectical reasoning.
    Description / Table of Contents: Analogical reasoning.Deductive reasoning.; Inductive reasoning.; Abductive reasoning.; Pierce's model for abduction.; Activity; Story 1.; Story 2.; Story 3.; Story 4.; Teleology and the Idea of Causes; Activity; Aristotle's Universe; Activity; The earth.; The heavens.; How we understand things.; Motion.; Activity; Causation.; Activity; Activity; Living things.; NOTES; CHAPTER 3: WARRING COSMOLOGIES AND THE EMERGENCE OF EUROCENTRIC SCIENCE; GALEN'S OBSERVATIONS; ARISTOTELIANISM AS A WORLDVIEW IN MEDIEVAL EUROPE; WHAT IS A WORLDVIEW?; Activity; Activity; Question.
    Description / Table of Contents: THIS IS ALL VERY WELL BUT HOW DOES THIS AFFECT MY SCIENCE TEACHING?ARISTOTELIANISM AND MECHANISM; Activity; VIOLENT MOTION; A Specific Example - On Motion; Activity; Activity; RENE DÉSCARTES AND MECHANISM; Activity; AND THE EXPERIMENTAL PHILOSOPHERS; Question.; Activity; Activity; The Machine Metaphor and Experiments; Worldview and Questions; Activity.; NOTES; CHAPTER 4: VALUING PATTERNS AND THE CONTINUING EMERGENCE OF EUROCENTRIC SCIENCE; Activity; EXPLORING THE WORLD: THE RISE OF NATURAL HISTORY; THEOLOGICAL VOLUNTARISM VERSUS INTELLECTUALISM; OTHER DEVELOPMENTS; Activity
    Description / Table of Contents: Other aspects of Arabic science.The emergence of friar organizations.; Moveable type and the printing press.; On the Workings of the Human Body; The use of vernacular language.; Question.; Activity; THE EMERGENCE OF EUROCENTRIC SCIENCE; LOOKING FOR PATTERNS: SOME OBSERVATIONS AND DEVELOPMENTS; The Beginnings of a New Worldview; Activity; Considering the Theoretical Possibilities; Filoteo.; USING PHYSICAL MODELS SUPPORTING A DIFFERENT WORLDVIEW; Activity; DISRUPTING PATTERNS IN THE SKY: A FURTHER CHALLENGE TO ARISTOTLEIANISM?; Activity; WHAT IS A LAW, SCIENTIFICALLY?
    Description / Table of Contents: Activity - So What is Needed for a Law? Seeing Patterns in the Data
    Note: Description based upon print version of record
    DOI: 10.1007/978-94-6091-525-3
    URL: Volltext  (lizenzpflichtig)
    URL: Volltext  (lizenzpflichtig)
    URL: Volltext
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    BSZ
    MPI Ethno. Forsch.
  • 13
    Online Resource
    Online Resource
    Modeling Students' Mathematical Modeling Competencies : ICTMA 13 (2010)
    Boston, MA : Springer Science+Business Media, LLC
    Details
    ISBN: 9781441905611
    Language: English
    Pages: Online-Ressource , v.: digital
    Edition: 1
    Edition: Online-Ausg. Springer eBook Collection. Humanities, Social Science and Law Electronic reproduction; Available via World Wide Web
    RVK:
    SD 2007
    RVK:
    SM 603
    RVK:
    SM 619
    RVK:
    DP 4600
    RVK:
    SM 630
    RVK:
    TB 4053
    RVK:
    UB 4049
    RVK:
    VB 4052
    Keywords: Education ; Mathematics ; Science Study and teaching ; Mathematikunterricht ; Mathematisches Modell ; Fähigkeit
    Abstract: As we enter the 21st century, there is an urgent need for new approaches to mathematics education emphasizing its relevance in young learners' futures. Modeling Students' Mathematical Modeling Competencies explores the vital trend toward using real-world problems as a basis for teaching mathematics skills, competencies, and applications. Blending theoretical constructs and practical considerations, the book presents papers from the latest conference of the ICTMA, beginning with the basics (Why are models necessary? Where can we find them?) and moving through intricate concepts of how students perceive math, how instructors teach and how both can become better learners. Dispatches as varied as classroom case studies, analyses of math in engineering work, and an in-depth review of modeling-based curricula in the Netherlands illustrate modeling activities on the job, methods of overcoming math resistance, and the movement toward replicable models and lifelong engagement. A sampling of topics covered: How students recognize the usefulness of mathematics Creating the modeling-oriented classroom Assessing and evaluating students' modeling capabilities The relationship between modeling and problem-solving Instructor methods for developing their own models of modeling New technologies for modeling in the classroom 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.
    Note: Includes bibliographical references , Electronic reproduction; Available via World Wide Web
    DOI: 10.1007/978-1-4419-0561-1
    URL: Volltext  (lizenzpflichtig)
    URL: Inhaltstext
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    MPI Ethno. Forsch.
  • 14
    Online Resource
    Online Resource
    Research in Science Education — Past, Present, and Future (2001)
    Dordrecht : Imprint: Springer | Dordrecht : Springer Netherlands
    Details
    ISBN: 9780306476396
    Language: English
    Pages: 1 Online-Ressource(VIII, 344 p.)
    Edition: 1st ed. 2001.
    Parallel Title: Erscheint auch als
    Parallel Title: Erscheint auch als
    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
    URL: lizenzpflichtig
    URL: Volltext
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    BSZ
    MPI Ethno. Forsch.
  • 15
    Online Resource
    Online Resource
    Formative Assessment and Science Education (2001)
    Dordrecht : Imprint: Springer | Dordrecht : Springer Netherlands
    Details
    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
    Parallel Title: Erscheint auch als
    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
    URL: Volltext
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    BSZ
    MPI Ethno. Forsch.
Close ⊗
This website uses cookies and the analysis tool Matomo. More information can be found here...