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E-raamat: Learning to Think Spatially

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  • Formaat: 332 pages
  • Ilmumisaeg: 03-Jan-2005
  • Kirjastus: National Academies Press
  • Keel: eng
  • ISBN-13: 9780309185639
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Learning to Think SpatiallySuurem pilt
  • Formaat: 332 pages
  • Ilmumisaeg: 03-Jan-2005
  • Kirjastus: National Academies Press
  • Keel: eng
  • ISBN-13: 9780309185639
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Learning to Think Spatially examines how spatial thinking might be incorporated into existing standards-based instruction across the school curriculum. Spatial thinking must be recognized as a fundamental part of K12 education and as an integrator and a facilitator for problem solving across the curriculum. With advances in computing technologies and the increasing availability of geospatial data, spatial thinking will play a significant role in the information-based economy of the twenty-first century. Using appropriately designed support systems tailored to the K12 context, spatial thinking can be taught formally to all students. A geographic information system (GIS) offers one example of a high-technology support system that can enable students and teachers to practice and apply spatial thinking in many areas of the curriculum.Table of Contents



Front Matter Executive Summary 1 Introduction PART I: THE NATURE AND FUNCTIONS OF SPATIAL THINKING --2 The Nature of Spatial Thinking 3 Spatial Thinking in Everyday Life, at Work, and in Science 4 Teaching and Learning About Spatial Thinking 5 Responding to the Need for Spatial Thinking 6 Tools for Thought: The Concept of a Support System PART II: SUPPORT FOR SPATIAL THINKING--7 High-Tech Support Systems for Spatial Thinking 8 An Assessment of GIS as a System for Supporting Spatial Thinking in the K-12 Context 9 GIS as a Support System for Spatial Thinking PART III: SUPPORTING SPATIAL THINKING IN THE FUTURE--10 Conclusions and Recommendations 11 The Spatial Thinker References Appendix A Biographical Sketches of Committee Members and Staff Appendix B Oral Presentations and Written Statements Appendix C Individual Differences in Spatial Thinking: The Effects of Age, Development, and Sex Appendix D The Role of Spatial Representations in Learning, Problem Solving, and Transfer Appendix E Software Descriptions and Resources Appendix F What Is GIScience? Appendix G The Introduction of GIS into K12 Education Appendix H Seasonal Differences: A Customized Eighth-Grade GIS Module Appendix I List of Acronyms Index
Executive Summary 1(10)
Introduction
11(14)
The Challenge to Learn
11(1)
Spatial Thinking
12(1)
Charge to the Committee
13(2)
An Outcome of the Report: Fostering Spatial Literacy
15(5)
Audiences for Learning to Think Spatially
20(1)
Structure of This Report
21(4)
PART I: THE NATURE AND FUNCTIONS OF SPATIAL THINKING
The Nature of Spatial Thinking
25(24)
Introduction
25(1)
Approaches to Spatial Thinking
25(3)
The Use of Space as a Framework for Understanding
28(5)
The Three Functions of Spatial Thinking
33(3)
Space as the Basis for Spatial Thinking
36(4)
The Process of Spatial Thinking
40(8)
Conclusion
48(1)
Spatial Thinking in Everyday Life, at Work, and in Science
49(45)
Introduction
49(1)
Spatial Thinking in Everyday Life
49(3)
Spatial Thinking at Work
52(3)
Spatial Thinking in Science
55(1)
Spatial Thinking in Astronomy
56(12)
Spatial Thinking in Geoscience
68(15)
Thinking Spatially in Geoscience: The Seafloor Maps of Marie Tharp
83(5)
Thinking Spatially in Geography: Walter Christaller's Discovery of Central Place Theory
88(5)
Conclusion
93(1)
Teaching and Learning About Spatial Thinking
94(16)
Introduction
94(1)
Expertise Differences in Spatial Thinking: The Effects of Experience
95(8)
The Challenge of Developing Expertise in Spatial Thinking
103(2)
The Transfer of Spatial Thinking Across Subjects in the Curriculum
105(2)
The Fostering of Expertise in Spatial Thinking
107(2)
Conclusion
109(1)
Responding to the Need for Spatial Thinkers
110(25)
Introduction
110(1)
The Increasing Need for Spatial Thinking Skills
110(1)
Providing Skilled Spatial Thinkers
111(2)
The 1999 Trends in International Mathematics and Science Study (TIMSS)
113(1)
Spatial Thinking in the National Education Standards
114(17)
Spatial Thinking and Education for the Next Generation
131(4)
Tools for Thought: The Concept of a Support System
135(20)
Introduction
135(1)
The Nature of a Support System
135(5)
The Functions of a Support System
140(1)
Tools for Thought: The Limits to Power
141(4)
General Criteria for the Design of a Support System in the K-12 Educational Context
145(2)
The Need for Support Systems for Spatial Thinking (SSST)
147(1)
The Requirements of a Support System for Spatial Thinking
148(2)
Support Systems for Spatial Thinking in the K--12 Context
150(1)
The Implementation of a Support System for Spatial Thinking in the K-12 Educational Context
151(4)
PART II: SUPPORT FOR SPATIAL THINKING
High-Tech Support Systems for Spatial Thinking
155(11)
Introduction
155(1)
High-Tech Systems for Supporting Spatial Thinking
156(2)
The Nature and Functions of GIS
158(6)
The Current Status of GIS
164(2)
An Assessment of GIS as a System for Supporting Spatial Thinking in the K--12 Context
166(51)
Introduction
166(1)
The Capacity of GIS as a Support System for Spatial Thinking
167(9)
The Design of GIS as a Support System for Spatial Thinking in the K--12 Educational Context
176(27)
The Implementation of GIS as a Support System for Spatial Thinking
203(11)
Mechanisms for the Redesign of GIS Educational Software
214(2)
Conclusion
216(1)
GIS as a Support System for Spatial Thinking
217(12)
Introduction
217(1)
The Necessary Requirements of a Support System for Spatial Thinking
217(1)
The Design of GIS as a Support System for Spatial Thinking in the K--12 Educational Context
218(1)
The Implementation of GIS as a Support System for Spatial Thinking
219(1)
The Redesign of GIS Educational Software
220(1)
Conclusion
220(9)
PART III: SUPPORTING SPATIAL THINKING IN THE FUTURE
Conclusions and Recommendations
229(8)
Introduction
229(1)
Charge to the Committee
229(1)
The Nature and Functions of Spatial Thinking
230(3)
Support for Spatial Thinking
233(2)
Conclusion
235(2)
The Spatial Thinker
237(6)
GIS and the Challenge of Thinking Spatially
237(1)
An Example of Using GIS to Think Spatially
237(4)
Meeting the Challenge to Learn to Think Spatially
241(2)
REFERENCES
243(58)
APPENDIXES
A. Biographical Sketches of Committee Members and Staff
259(5)
B. Oral Presentations and Written Statements
264(2)
C. Individual Differences in Spatial Thinking: The Effects of Age, Development, and Sex
266(15)
D. The Role of Spatial Representations in Learning, Problem Solving, and Transfer
281(4)
E. Software Descriptions and Resources
285(2)
F. What Is GIScience?
287(2)
G. The Introduction of GIS into K--12 Education
289(4)
H. Seasonal Differences: A Customized Eighth-Grade GIS Module
293(5)
I. List of Acronyms
298(3)
Index 301
Committee on the Support for the Thinking Spatially: The Incorporation of Geographic Information Science Across the K-12 Curriculum, Committee on Geography, National Research Council
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