How Humans Learn to Think Mathematically describes the development of mathematical thinking from the young child to the sophisticated adult. Professor David Tall reveals the reasons why mathematical concepts that make sense in one context may become problematic in another. For example, a child's experience of whole number arithmetic successively affects subsequent understanding of fractions, negative numbers, algebra, and the introduction of definitions and proof. Tall's explanations for these developments are accessible to a general audience while encouraging specialists to relate their areas…mehr
How Humans Learn to Think Mathematically describes the development of mathematical thinking from the young child to the sophisticated adult. Professor David Tall reveals the reasons why mathematical concepts that make sense in one context may become problematic in another. For example, a child's experience of whole number arithmetic successively affects subsequent understanding of fractions, negative numbers, algebra, and the introduction of definitions and proof. Tall's explanations for these developments are accessible to a general audience while encouraging specialists to relate their areas of expertise to the full range of mathematical thinking. The book offers a comprehensive framework for understanding mathematical growth, from practical beginnings through theoretical developments, to the continuing evolution of mathematical thinking at the highest level.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
Produktdetails
Learning in Doing: Social, Cognitive, and Computational Perspectives
David Tall is Emeritus Professor of Mathematical Thinking at the University of Warwick. He is internationally known for his research into long-term mathematical development at all levels, from preschool to the frontiers of research, including in-depth studies explaining mathematical success and failure.
Inhaltsangabe
Part I. Prelude: 1. About this book; Part II. School Mathematics and its Consequences: 2. The foundations of mathematical thinking; 3. Compression, connection and blending of mathematical ideas; 4. Set-befores, met-befores and long-term learning; 5. Mathematics and the emotions; 6. The three worlds of mathematics; 7. Journeys through embodiment and symbolism; 8. Problem-solving and proof; Part III. Interlude: 9. The historical evolution of mathematics; Part IV. University Mathematics and Beyond: 10. The transition to formal knowledge; 11. Blending knowledge structures in calculus; 12. Expert thinking and structure theorems; 13. Contemplating the infinitely large and the infinitely small; 14. Expanding frontiers through mathematical research; 15. Reflections; Appendix: where the ideas came from.
Part I. Prelude: 1. About this book Part II. School Mathematics and its Consequences: 2. The foundations of mathematical thinking 3. Compression, connection and blending of mathematical ideas 4. Set-befores, met-befores and long-term learning 5. Mathematics and the emotions 6. The three worlds of mathematics 7. Journeys through embodiment and symbolism 8. Problem-solving and proof Part III. Interlude: 9. The historical evolution of mathematics Part IV. University Mathematics and Beyond: 10. The transition to formal knowledge 11. Blending knowledge structures in calculus 12. Expert thinking and structure theorems 13. Contemplating the infinitely large and the infinitely small 14. Expanding frontiers through mathematical research 15. Reflections Appendix: where the ideas came from.
Part I. Prelude: 1. About this book; Part II. School Mathematics and its Consequences: 2. The foundations of mathematical thinking; 3. Compression, connection and blending of mathematical ideas; 4. Set-befores, met-befores and long-term learning; 5. Mathematics and the emotions; 6. The three worlds of mathematics; 7. Journeys through embodiment and symbolism; 8. Problem-solving and proof; Part III. Interlude: 9. The historical evolution of mathematics; Part IV. University Mathematics and Beyond: 10. The transition to formal knowledge; 11. Blending knowledge structures in calculus; 12. Expert thinking and structure theorems; 13. Contemplating the infinitely large and the infinitely small; 14. Expanding frontiers through mathematical research; 15. Reflections; Appendix: where the ideas came from.
Part I. Prelude: 1. About this book Part II. School Mathematics and its Consequences: 2. The foundations of mathematical thinking 3. Compression, connection and blending of mathematical ideas 4. Set-befores, met-befores and long-term learning 5. Mathematics and the emotions 6. The three worlds of mathematics 7. Journeys through embodiment and symbolism 8. Problem-solving and proof Part III. Interlude: 9. The historical evolution of mathematics Part IV. University Mathematics and Beyond: 10. The transition to formal knowledge 11. Blending knowledge structures in calculus 12. Expert thinking and structure theorems 13. Contemplating the infinitely large and the infinitely small 14. Expanding frontiers through mathematical research 15. Reflections Appendix: where the ideas came from.
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