Verfügbarkeit: Progressing science education

Progressing science education: constructing the scientific research programme into the contingent nature of learning science

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Bibliographische Detailangaben
1. Verfasser:	Taber, Keith S. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Dordrecht [u.a.] Springer Netherland 2009
Schriftenreihe:	Science & Technology Education Library 37
Schlagworte:	Naturwissenschaft Constructivism (Education) Science > Study and teaching Naturwissenschaftlicher Unterricht Lernpsychologie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIV, 399 S. graph. Darst. 235 mm x 155 mm
ISBN:	9789048124305

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Datensatz im Suchindex

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adam_text	Titel: Progressing science education Autor: Taber, Keith Jahr: 2009 Contents Introduction: The Scientific Research Programme into Learning Science.... 1 1 Science Education As a Research Field Within a Domain of Enquiry................................................................................. 7 1.1 A Research Topic: Learning Science.................................................. 7 1.1.1 The Construction Metaphor for Learning............................... 8 1.2 Sharing Meanings for Key Terms....................................................... 9 1.2.1 Learning as a Potential for New Behaviour............................ 10 1.2.2 Knowledge as a Label for What Is Currently Considered to Be So............................................................... 11 1.2.3 Beliefs, Ideas and Conceptions............................................... 12 1.2.4 Thinking and the Mind........................................................... 15 1.3 Locating the Research Topic in a Field of Study ............................. 16 1.3.1 The Wider Domain of Enquiry............................................... 17 1.3.2 The Relationship of Topic and Field....................................... 17 1.3.3 Progressing Science Education?............................................. 19 1.4 The Domain of Enquiry - Background to the Field........................... 19 1.4.1 Public and Personal Knowledge............................................. 20 1.5 Philosophical Views on Learning....................................................... 21 1.5.1 Dewey s Pragmatic View of Knowledge................................ 22 1.5.2 Glasersfeld s Radical Constructivism..................................... 23 1.6 Influences from Psychological Studies of Development.................... 24 1.6.1 Piaget s Construction of the Child s World............................ 25 1.6.2 Vygotsky and Scaffolded Construction of Our Worlds.......... 28 1.6.3 Kelly s Personal Constructs of the World............................... 31 1.6.4 Perry s Model of Intellectual Development............................ 33 1.7 Studies of Cognition........................................................................... 34 1.7.1 Introspection and Behaviourism............................................. 34 1.7.2 Gestalt Theorists..................................................................... 35 1.7.3 Learning Through Metaphor................................................... 36 1.7.4 Information Processing Models.............................................. 37 1.8 Structure of Mind................................................................................ 39 1.8.1 General Processing Models.................................................... 39 ,¡ii Contents 1.8.2 Modular Minds................................................................... 40 1.8.3 Representational Redescription in Cognitive Development....................................................................... 40 1.8.4 Mental Models and Representation.................................... 41 1.8.5 Metacognition..................................................................... 42 1.9 Approaches to Instruction and Pedagogy......................................... 43 1.9.1 Gagné and the Conditions of Learning............................... 43 1.9.2 Ausubel............................................................................... 44 1.9.3 Bruner................................................................................. 44 1.10 The Field: Research in Science Education........................................ 46 1.10.1 Curriculum Development.................................................... 46 1.10.2 The Piagetian Research Programme in Science Education........................................................... 46 1.10.3 Dissatisfaction with the Piagetian Perspective................... 48 1.10.4 Constructivism in Science Education................................. 49 2 Scientific Research in Education.......................................................... 51 2.1 The Notion of Educational Science.................................................. 51 2.1.1 Why Do We Need to Put a Boundary Around Science?..... 52 2.2 A Post-Positivist View of Science..................................................... 53 2.2.1 Positivism and Objective Knowledge................................. 53 2.2.2 Popper s Three Worlds Model............................................ 55 2.2.3 Science, Realism and Objectivity....................................... 56 2.3 Scientific Method.............................................................................. 59 2.3.1 The Problem of Induction................................................... 59 2.3.2 The Problem with Deduction.............................................. 61 2.3.3 Another Problem with Refutations..................................... 62 2.3.4 The Complication of Instrumentation................................. 63 2.4 The Role of Theory in Scientific Research....................................... 65 2.4.1 Kuhn and Adherence to Theory.......................................... 65 2.5 Experimental and Naturalistic Research in Science......................... 67 2.5.1 Reductionism in Science and Relational Perspectives..... 68 2.5.2 Traditional Ecological Knowledge..................................... 68 2.5.3 A Post-Positivist Notion of Science That Can Include Education............................................... 69 2.6 Research Paradigms in Education..................................................... 70 2.6.1 The Significance of Judgements About Choice of Research Paradigm............................................................. 71 2.6.2 Positivist or Interpretivist.................................................... 72 2.6.3 Nomothetic or Idiographic.................................................. 74 2.6.4 Confirmatory or Discovery................................................. 75 2.6.5 Questioning the Dichotomy of Research Approaches in Education........................................................................ 76 2.7 Scientific Research in Education...................................................... 77 2.7.1 A Post-Positivist Paradigm for Educational Research?...... 78 Contents ix 3 A Model of Science: Lakatos and Scientific Research Programmes............................................................................. 79 3.1 Lakatos: An Alternative to Popper and Kuhn................................. 79 3.2 Paradigms As a Unit of Analysis in Science.................................. 81 3.2.1 Revolutionary Science and Normal Science..................... 81 3.2.2 The Notion of a Paradigm................................................. 82 3.2.3 Normal Science................................................................. 82 3.2.4 The Disciplinary Matrix.................................................... 83 3.2.5 Scientific Revolutions....................................................... 84 3.2.6 Gestalt-Shifts and Paradigm-Shifts................................... 84 3.2.7 Incommensurability of Paradigms.................................... 85 3.3 Criticisms of Kuhn s Model............................................................ 86 3.3.1 Relativism and Subjectivity.............................................. 87 3.3.2 The Myth of the Framework............................................. 88 3.3.3 Qualified Relativism.......................................................... 89 3.3.4 Progress and Non-Revolutions.......................................... 91 3.4 Parallels Between Science and Science Education?....................... 91 3.5 Lakatos and RP As Units of Analysis............................................. 92 3.6 The Key Features of a SRP............................................................. 93 3.6.1 The Hard Core and the Negative Heuristic....................... 94 3.6.2 The Protective Belt............................................................ 95 3.6.3 The Positive Heuristic of a RP.......................................... 96 3.6.4 Models As Part of the Protective Belt............................... 97 3.7 Refutation in RP.............................................................................. 98 3.7.1 Quarantine of Anomalies.................................................. 99 3.8 Evaluating RP................................................................................. 100 3.8.1 Progressive RP.................................................................. 100 3.8.2 Degenerate RP................................................................... 101 3.8.3 Competition Between RP.................................................. 101 3.9 Relating Paradigms, Programmes and Frameworks....................... 102 3.10 Scientific RPand the Social Sciences............................................. 103 3.10.1 The Significance of Demarcation...................................... 104 3.10.2 Normative Knowledge and RP.......................................... 106 3.10.3 Progressive and Scientific RP........................................... 106 3.10.4 RP in Science and Psuedoscience..................................... 108 3.11 The Origins of a RP........................................................................ 108 3.11.1 Nursing RP........................................................................ 109 3.12 Summary......................................................................................... 110 4 A Scientific Research Programme Within Science Education............. 111 4.1 Constructivism As a Research Orthodoxy in Science Education... Ill 4.1.1 Pupils, Paradigms and Alternative Frameworks?.............. 113 4.1.2 The Notion of Children s Science..................................... 114 4.1.3 Considering Pupils As Scientists...................................... 114 4.1.4 Students Conceptual Frameworks in Science.................. 115 Contents 4.1.5 Concepts, Misconceptions and Alternative Conceptions.. 115 4.1.6 Personal Constructivism.................................................... 116 4.1.7 Learning Science As a Generative Process....................... 116 4.1.8 Early Evidence of the Significance of Learners Ideas..... 117 4.2 The Alternative Conceptions Movement ...................................... 117 4.2.1 Major Projects: LiSP, CLiSP and SPACE......................... 118 4.2.2 Constructivism Becomes Widely Taken-for-Granted....... 118 4.3 Conceptualisations of the Research Programme............................. 119 4.3.1 Driver and Erickson Set Out Premises for a RP................ 120 4.3.2 Gilbert and Swift Suggest a Lakatosian Analysis............. 120 4.3.3 A Descriptive and Pre-Theoretical Movement?................ 121 4.3.4 A Recent Suggestion for the Hard Core of the RP............ 122 4.4 Characterising the Research Programme........................................ 122 4.4.1 A Model of the Hard Core................................................ 122 4.4.2 A Positive Heuristic for the RP......................................... 123 4.4.3 Building the Protective Belt of the RP.............................. 123 4.5 Knowledge Construction................................................................. 125 4.5.1 Learning Science Is an Active Process of Constructing Personal Knowledge.................................... 125 4.6 The Transfer Model of Learning.................................................. 126 4.6.1 The Status of the Transfer Model...................................... 126 4.6.2 Objections to a Transfer Model of Coming to Knowledge.................................................................... 128 4.6.3 Personal Knowledge and Personal Construction.............. 128 4.7 How Does Knowledge Construction (i.e. Learning) Take Place?... 130 4.8 Learners Scientific Ideas................................................................ 131 4.8.1 Learners Come to Science Learning with Existing Ideas About Many Natural Phenomena............................ 131 4.8.2 What Ideas Do Learners Bring to Science Classes?......... 132 4.8.3 What Is the Nature of These Ideas?.................................. 133 4.9 Implications for Learning............................................................... 133 4.9.1 The Learners Existing Ideas Have Consequences for the Learning of Science............................................... 134 4.9.2 How Do Learners Ideas Interact with Teaching?............. 135 4.10 Implications for Teaching............................................................... 136 4.10.1 It is Possible to Teach Science More Effectively if Account Is Taken of the Learner s Existing Ideas......... 137 4.10.2 How Should Teachers Teach Science?.............................. 137 4.11 Learners Knowledge Structures..................................................... 138 4.11.1 Knowledge Is Represented in the Brain As a Conceptual Structure......................................................... 139 4.11.2 How Is Knowledge Represented in the Brain?................. 140 4.12 Individual Differences..................................................................... 142 4.12.1 Learners Conceptual Structures Exhibit Both Commonalities and Idiosyncratic Features.............. 143 Contents x¡ 4.12.2 How Much Commonality Is There Between Learners Ideas in Science?............................................... 143 4.13 Researchers Representations......................................................... 144 4.13.1 It Is Possible to Meaningfully Model Learners Conceptual Structures....................................................... 144 4.13.2 What Are the Most Appropriate Models and Representations?......................................................... 145 4.14 Applying the Model of the RP........................................................ 145 5 The Negative Heuristic and Criticisms of Constructivism in Science Education................................................................................ 147 5.1 Constructivism As Culturally Imperialist Movement That Is damaging to Many Traditional Cultures............................. 148 .1 Bowers s Version of Constructivism................................. 149 .2 Levels of Cognitive Development and Ways of Knowing....................................................... 150 .3 An Absurd Assumption.................................................. 152 .4 Constructivism and Content in the Curriculum.............. 154 .5 Science Education Undermining Traditional Knowledge Systems.......................................................... 155 5.1.6 Constructivism and TEK................................................... 158 5.2 The Philosophical Stance of the Constructivist Programme........... 160 5.2.1 Philosophical Commitments Informing Research............ 161 5.2.2 Constructivism As a Label for a Research Paradigm........ 163 5.2.3 Philosophical Critiques..................................................... 163 5.2.4 Relativist Leanings in Constructivist Writing in Science Education............................................................. 164 5.2.5 Flavours of Constructivism............................................... 167 5.2.6 Glasersfeld s Radical Constructivism As an Instrumentalist Perspective............................................... 169 5.2.7 Matthew s Criticisms of Radical Constructivism.............. 174 5.2.8 Scerri s Philosophical Confusion ................................... 176 5.2.9 Equating Constructivism with Ignorance.......................... 177 5.2.10 Teaching Science As a Consensual Body of Knowledge.................................................................... 178 5.3 The Status of Theory in the RP....................................................... 183 5.3.1 Natural History and Science in the RP.............................. 183 5.3.2 Validity of Theoretical Constructs.................................... 184 5.3.3 Needless Constructivist Jargon......................................... 184 5.3.4 Confused Terminology...................................................... 185 5.3.5 Empirical Support for Theoretical Constructs.................. 190 5.4 The Social Constructivist Perspective............................................. 191 5.4.1 Criticisms of the RP.......................................................... 192 5.4.2 Different Flavours of Social Constructivism..................... 193 xii Contents 5.4.3 Acknowledgement of the Social Dimension......................... 197 5.4.4 Including Social Constructivism Within the RP................... 198 5.5 The Research-Practice Interface....................................................... 199 5.5.1 The Criticisms....................................................................... 199 5.5.2 The Research-Practice Debate.............................................. 200 5.5.3 Matthews Criticisms of Constructivist Learning As Unguided Discovery........................................................ 201 5.5.4 Constructivist Approaches to Curriculum Development and Instruction................................................ 202 5.5.5 The Adoption of the Constructivist Agenda in Classrooms........................................................................ 206 5.6 Constructivism in Science Education As a Degenerate RP.............. 216 5.6.1 Constructivism As the Basis of a Progressive RP in Science Education............................................................. 217 6 Building the Protective Belt of the Progressive Research Programme.............................................................................. 219 6.1 Students Understanding Science....................................................... 221 6.1.1 Challenges of Exploring Student Thinking........................... 221 6.1.2 A Rational Reconstruction of the Literature on Learners Ideas in Science............................................... 222 6.1.3 What Ideas Do Learners Bring to Science Classes?............ 222 6.1.4 What Is the Nature of the Ideas That Learners Bring to Science Classes?..................................................... 226 6.1.5 Explaining Diverging Views of the Nature of Learners Ideas.................................................................. 256 6.1.6 How Much Commonality Is There Between Learners Ideas in Science?................................................... 257 6.2 Students Learning Science................................................................ 263 6.2.1 Levels of Analysis of Learning............................................. 263 6.2.2 How Does Knowledge Construction Take Place in Learning Science?............................................................. 268 6.3 Teachers Teaching Science............................................................... 298 6.3.1 Teaching Within the Domain Boundary................................ 299 6.3.2 Finding Out Where the Learners Are.................................... 300 6.3.3 Using Knowledge of Students Conceptual Resources to Inform the Teacher............................................................ 303 6.3.4 Making Existing Thinking Explicit to Allow Exploration and Challenge.................................................... 305 6.3.5 Making the Unfamiliar Familiar........................................... 308 6.3.6 Learning by Analogy............................................................. 309 6.3.7 Scaffolding the Building of Shared Knowledge.................... 309 6.3.8 Teaching As Developing a Community of Practice in the Classroom.................................................................... 311 Contents xiii 6.3.9 Consolidating New Learning.............................................. 311 6.3.10 Claims for Constructivist Teaching..................................... 312 6.3.11 Constructivist Teacher Education?...................................... 313 6.4 To What Extent Has the RP Addressed the Issues Set Out in the Positive Heuristic?.................................................................. 314 6.4.1 What Ideas Do Learners Bring to Science Classes?.......... 314 6.4.2 What Is the Nature of These Ideas?.................................... 315 6.4.3 How Much Commonality Is There Between Learners Ideas in Science?................................................. 317 6.4.4 How Is Knowledge Represented in the Brain?................... 317 6.4.5 What Are the Most Appropriate Models and Representations?........................................................... 318 6.4.6 How Does Knowledge Construction (i.e. Learning) Take Place?.......................................................................... 318 6.4.7 How Do Learners Ideas Interact with Teaching?............... 319 6.4.8 How Should Constructivist Teachers Teach Science?...... 320 6.4.9 A Progressive Research Programme................................... 323 7 The Positive Heuristic: Directions for Progressing the Field............... 325 7.1 What We Know Now........................................................................ 327 7.2 The Continuing Challenge for the RP............................................... 328 7.2.1 Post-positivist Approaches to Research: Fitness for Purpose.............................................................. 328 7.3 Complexity: The Need to Study Individual Learners in Depth........ 330 7.3.1 Exploring Cognitive Structure............................................ 330 7.3.2 Techniques for Exploring Student Thinking and Cognitive Structure............................................................. 332 7.3.3 The Development of Interview Methodology..................... 335 7.3.4 Analytical Approaches........................................................ 337 7.4 Generalisability: The Value of the Methodological Pendulum......... 337 7.4.1 Individual Differences - And Facilitating Expert Thinking.................................................................. 339 7.5 Learning As a Process: The Need to Study Change......................... 339 7.5.1 The Timescale of Learning................................................. 340 7.5.2 Two Approaches to Studying Change in Learners Ideas.................................................................... 341 7.5.3 The Nature of Cross-sectional Studies................................ 341 7.5.4 The Nature of Longitudinal Studies.................................... 342 7.5.5 Complementarity................................................................. 344 7.5.6 The Conceptual Ecology: The Need to Study Learning in Its Mental Context........................................................... 345 7.6 Teaching As Facilitation of Learning: The Need to Study Learning in Classroom Contexts...................................................... 345 7.6.1 Communities of Practice: The Need to Study Learning in Its Social Context............................................. 346 xiv Contents 7.7 Natural Experiments: The Need to Compare Across Educational Contexts........................................................................ 347 7.7.1 Surveying Populations in Diverse Educational Contexts..... 349 7.7.2 Sampling a Population.......................................................... 351 7.8 Bringing It All Together: A Progressive Methodological Pendulum?.............................................................. 351 7.8.1 Testing Out Pedagogic Approaches...................................... 352 7.8.2 Interdisciplinary Research: Drawing upon Insights from Cognate Areas.............................................................. 354 7.9 Constructivism, Contingency and the Progressive Research Programme........................................................................ 355 Final Thoughts: Is There Really a RP, and Does It Matter?..................... 357 References....................................................................................................... 361 Name Index..................................................................................................... 385 Subject Index.................................................................................................. 391
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indexdate	2024-07-09T21:36:07Z
institution	BVB
isbn	9789048124305
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-017395053
oclc_num	318878994
open_access_boolean
owner	DE-29 DE-19 DE-BY-UBM DE-91 DE-BY-TUM
owner_facet	DE-29 DE-19 DE-BY-UBM DE-91 DE-BY-TUM
physical	XIV, 399 S. graph. Darst. 235 mm x 155 mm
publishDate	2009
publishDateSearch	2009
publishDateSort	2009
publisher	Springer Netherland
record_format	marc
series	Science & Technology Education Library
series2	Science & Technology Education Library
spelling	Taber, Keith S. Verfasser aut Progressing science education constructing the scientific research programme into the contingent nature of learning science Keith S. Taber Dordrecht [u.a.] Springer Netherland 2009 XIV, 399 S. graph. Darst. 235 mm x 155 mm txt rdacontent n rdamedia nc rdacarrier Science & Technology Education Library 37 Naturwissenschaft Constructivism (Education) Science Study and teaching Naturwissenschaftlicher Unterricht (DE-588)4041425-5 gnd rswk-swf Lernpsychologie (DE-588)4074166-7 gnd rswk-swf Naturwissenschaftlicher Unterricht (DE-588)4041425-5 s Lernpsychologie (DE-588)4074166-7 s DE-604 Erscheint auch als Online-Ausgabe 978-90-481-2431-2 Science & Technology Education Library 37 (DE-604)BV010179608 37 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017395053&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Taber, Keith S. Progressing science education constructing the scientific research programme into the contingent nature of learning science Science & Technology Education Library Naturwissenschaft Constructivism (Education) Science Study and teaching Naturwissenschaftlicher Unterricht (DE-588)4041425-5 gnd Lernpsychologie (DE-588)4074166-7 gnd
subject_GND	(DE-588)4041425-5 (DE-588)4074166-7
title	Progressing science education constructing the scientific research programme into the contingent nature of learning science
title_auth	Progressing science education constructing the scientific research programme into the contingent nature of learning science
title_exact_search	Progressing science education constructing the scientific research programme into the contingent nature of learning science
title_full	Progressing science education constructing the scientific research programme into the contingent nature of learning science Keith S. Taber
title_fullStr	Progressing science education constructing the scientific research programme into the contingent nature of learning science Keith S. Taber
title_full_unstemmed	Progressing science education constructing the scientific research programme into the contingent nature of learning science Keith S. Taber
title_short	Progressing science education
title_sort	progressing science education constructing the scientific research programme into the contingent nature of learning science
title_sub	constructing the scientific research programme into the contingent nature of learning science
topic	Naturwissenschaft Constructivism (Education) Science Study and teaching Naturwissenschaftlicher Unterricht (DE-588)4041425-5 gnd Lernpsychologie (DE-588)4074166-7 gnd
topic_facet	Naturwissenschaft Constructivism (Education) Science Study and teaching Naturwissenschaftlicher Unterricht Lernpsychologie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017395053&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV010179608
work_keys_str_mv	AT taberkeiths progressingscienceeducationconstructingthescientificresearchprogrammeintothecontingentnatureoflearningscience

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