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  • MPI Ethno. Forsch.  (4)
  • Weltkulturen Museum
  • Khine, Myint Swe  (4)
  • Education  (4)
  • Natural Sciences  (4)
  • 1
    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
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  • 2
    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
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  • 3
    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
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  • 4
    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)
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