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Practice of Constructivism in Science Education [Kõva köide]

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  • Formaat: Hardback, 360 pages, kõrgus x laius: 234x156 mm, kaal: 830 g
  • Ilmumisaeg: 01-Nov-1994
  • Kirjastus: Routledge
  • ISBN-10: 0805818782
  • ISBN-13: 9780805818789
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Practice of Constructivism in Science EducationSuurem pilt
  • Formaat: Hardback, 360 pages, kõrgus x laius: 234x156 mm, kaal: 830 g
  • Ilmumisaeg: 01-Nov-1994
  • Kirjastus: Routledge
  • ISBN-10: 0805818782
  • ISBN-13: 9780805818789
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780805818789.html
This volume provides a needed elaboration of theories and potential applications of constructivism in science education. Although the term "constructivism" is used widely, there has been a dearth of materials to guide science educators concerning the potential of constructivism to influence what is done in the field. In fact, there has been a tendency for constructivism to be viewed as a method that can be used in a classroom. This view tends to diminish the power of constructivism as a way of thinking about education, and in particular, about science education. The chapters in this book address the need to document the theoretical roots of constructivism and to describe how practitioners have applied constructivist oriented beliefs in the practice of K-12 teaching of science and mathematics, as well as teacher education. Not only does this book contain different theoretical perspectives on constructivism, but it also features a chapter that critiques constructivism as an epistemology. Specific topics covered include:

* cooperative learning,
* the negotiation of meaning,
* problem centered learning,
* social construction of knowledge,
* science in culturally diverse settings,
* curriculum planning and implementation, and
* instructional technology.

Issues associated with the preparation and enhancement of science teachers and the reform of science education are also explored.
Preface ix Part 1: The Nature of Constructivism Constructivism as a Referent for Teaching and Learning 3(20) Kenneth Tobin Deborah Tippins Questions and Answers about Radical Constructivism 23(16) Ernst von Glasersfeld The Construction of Knowledge: A Radical Constructivist View 39(12) Antonio Bettencourt Contextual Constructivism: The Impact of Culture on the Learning and Teaching of Science 51(20) William W. Cobern Cautionary Notes on the Appeal of the New ``Ism (Constructivism) in Science Education 71(20) Ronald G. Good James H. Wandersee John St. Julien Part 2: Teaching and Learning of Science and Mathematics Construction of Knowledge and Group Learning 91(30) Marcia C. Linn Nicholas C. Burbules The Role of Negotiation in Mathematics Learning 121(14) Grayson H. Wheatley Constructing Potential Learning Opportunities in Middle Grades Mathematics 135(10) Elizabeth Jakubowski Construction Sites: Science Labs and Classrooms 145(26) Wolff-Michael Roth Learning Science in Multicultural Environments 171(10) Alejandro Jose Gallard Secondary Science Teachers and Constructivist Practice 181(12) James J. Gallagher A Pragmatic View of Instructional Technology 193(22) Lloyd P. Rieber Part 3: Teacher Learning and Change Constructivist Perspectives on Teacher Learning 215(12) Kenneth Tobin Staff Development and the Process of Changing: A Teachers Emerging Constructivist Beliefs about Learning and Teaching 227(20) Francine P. Peterman Learning to Teach Science: Constructivism, Reflection, and Learning from Experience 247(12) Tom Russell Transitioning into Constructivism: A Vignette of a Fifth Grade Teacher 259(8) Kenneth L. Shaw Mia Lena Etchberger Collaborating to Reconstruct Teaching: The Influence of Researcher Beliefs 267(32) Peter C.S. Taylor Learning to See Childrens Mathematics: Crucial Challenges in Constructivist Reform 299(26) Jere Confrey Part 4: Conclusions On Considering Constructivism for Improving Mathematics and Science Teaching and Learning 325(10) Thomas M. Dana Nancy T. Davis Index 335
Kenneth G. Tobin