Book contents
- Frontmatter
- Preface
- Contents
- 1 Teaching with Primary Historical Sources: Should it Go Mainstream? Can it?
- 2 Dialogismin Mathematical Writing: Historical, Philosophical and Pedagogical Issues
- 3 The Process of Mathematical Agreement: Examples from Mathematics History and an Experimental Sequence of Activities
- 4 Researching the History of Algebraic Ideas from an Educational Point of View
- 5 Equations and Imaginary Numbers: A Contribution from Renaissance Algebra
- 6 The Multiplicity of Viewpoints in Elementary Function Theory: Historical and Didactical Perspectives
- 7 From History to Research in Mathematics Education: Socio-Epistemological Elements for Trigonometric Functions
- 8 Harmonies in Nature: A Dialogue Between Mathematics and Physics
- 9 Exposure to Mathematics in the Making: Interweaving Math News Snapshots in the Teaching of High-School Mathematics
- 10 History, Figures and Narratives in Mathematics Teaching
- 11 Pedagogy, History, and Mathematics: Measure as a Theme
- 12 Students' Beliefs About the Evolution and Development of Mathematics
- 13 Changes in Student Understanding of Function Resulting from Studying Its History
- 14 Integrating the History of Mathematics into Activities Introducing Undergraduates to Concepts of Calculus
- 15 History in a Competence Based Mathematics Education: A Means for the Learning of Differential Equations
- 16 History of Statistics and Students' Difficulties in Comprehending Variance
- 17 Designing Student Projects for Teaching and Learning Discrete Mathematics and Computer Science via Primary Historical Sources
- 18 History of Mathematics for Primary School Teacher Education Or: Can You Do Something Even if You Can't Do Much?
- 19 Reflections and Revision: Evolving Conceptions of a Using History Course
- 20 Mapping Our Heritage to the Curriculum: Historical and Pedagogical Strategies for the Professional Development of Teachers
- 21 Teachers' Conceptions of History of Mathematics
- 22 The Evolution of a Community of Mathematical Researchers in North America: 1636–1950
- 23 The Transmission and Acquisition of Mathematics in Latin America, from Independence to the First Half of the Twentieth Century
- 24 In Search of Vanishing Subjects: The Astronomical Origins of Trigonometry
- About the Editors
6 - The Multiplicity of Viewpoints in Elementary Function Theory: Historical and Didactical Perspectives
- Frontmatter
- Preface
- Contents
- 1 Teaching with Primary Historical Sources: Should it Go Mainstream? Can it?
- 2 Dialogismin Mathematical Writing: Historical, Philosophical and Pedagogical Issues
- 3 The Process of Mathematical Agreement: Examples from Mathematics History and an Experimental Sequence of Activities
- 4 Researching the History of Algebraic Ideas from an Educational Point of View
- 5 Equations and Imaginary Numbers: A Contribution from Renaissance Algebra
- 6 The Multiplicity of Viewpoints in Elementary Function Theory: Historical and Didactical Perspectives
- 7 From History to Research in Mathematics Education: Socio-Epistemological Elements for Trigonometric Functions
- 8 Harmonies in Nature: A Dialogue Between Mathematics and Physics
- 9 Exposure to Mathematics in the Making: Interweaving Math News Snapshots in the Teaching of High-School Mathematics
- 10 History, Figures and Narratives in Mathematics Teaching
- 11 Pedagogy, History, and Mathematics: Measure as a Theme
- 12 Students' Beliefs About the Evolution and Development of Mathematics
- 13 Changes in Student Understanding of Function Resulting from Studying Its History
- 14 Integrating the History of Mathematics into Activities Introducing Undergraduates to Concepts of Calculus
- 15 History in a Competence Based Mathematics Education: A Means for the Learning of Differential Equations
- 16 History of Statistics and Students' Difficulties in Comprehending Variance
- 17 Designing Student Projects for Teaching and Learning Discrete Mathematics and Computer Science via Primary Historical Sources
- 18 History of Mathematics for Primary School Teacher Education Or: Can You Do Something Even if You Can't Do Much?
- 19 Reflections and Revision: Evolving Conceptions of a Using History Course
- 20 Mapping Our Heritage to the Curriculum: Historical and Pedagogical Strategies for the Professional Development of Teachers
- 21 Teachers' Conceptions of History of Mathematics
- 22 The Evolution of a Community of Mathematical Researchers in North America: 1636–1950
- 23 The Transmission and Acquisition of Mathematics in Latin America, from Independence to the First Half of the Twentieth Century
- 24 In Search of Vanishing Subjects: The Astronomical Origins of Trigonometry
- About the Editors
Summary
Introduction
From 2002 to 2006, the “history of mathematics” group of Paris 7 IREM contributed to a research project funded by the Institut National de la Recherche Pédagogique (INRP). We chose to work on the multiplicity of viewpoints on functions. In spite of the fact that some didactical and some historical research work was available on this topic, we felt the relevant connections still needed to be pointed to and explored. We also made use of fresh historical research work, namely R. Chorlay's doctoral dissertation on the emergence of the concepts of “local” and “global” in mathematics [7, 8].
We borrowed from didactical works the notion of viewpoint (as opposed to theoretical frame and semiotic register [12] and the distinction between four viewpoints in mathematical Analysis: point-wise, infinitesimal, local and global. Didactical work focused either on issues of cognitive flexibility (versatility)—the ability to change viewpoints, frames or semiotic registers in problem-solving—and its growing importance in higher education (Advanced Mathematical Thinking), or on curricular discontinuities: a point-wise/global dialectic when the concept of function is first encountered, then the infinitesimal and local viewpoints come into play with calculus, then an all-encompassing abstract theoretical frame in higher education. We focused our more historical investigation on a series of hot spots in which the four viewpoints interact and, eventually, were made explicit in the 19th century: proofs of the mean value theorem; proofs of the link between the sign of f′ and the variations of f; differentiation of the three notions of maximum, local maximum and upper bound; emergence of the domain concept.
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- Information
- Publisher: Mathematical Association of AmericaPrint publication year: 2011
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