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MATH 3560 - History of Mathematics

MATH 3560: History of Mathematics (UNSW). Taught by Professor N. J. Wildberger, this course provides an overview of the history of mathematics, in 17 lectures; meant for a broad audience, not necessarily mathematics majors. Starting with Greek mathematics, Professor N. J. Wildberger discusses Hindu, Chinese and Arabic influences on algebra; the development of coordinate geometry, calculus and mechanics; the course of geometry from projective to non-Euclidean in the 19th century; complex numbers and algebra; differential geometry; and topology. This course roughly follows John Stillwell's book 'Mathematics and its History' (Springer, 3rd ed).

Lecture 01b - Pythagoras' theorem (cont.)

Pythagoras' theorem is both the oldest and the most important non-trivial theorem in mathematics. We give a very rough outline of world history from a mathematical point of view, position the work of the ancient Greeks as following from Egyptian and Babylonian influences, and introduce the most important theorem in all of mathematics: Pythagoras' theorem.


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Lecture 1a - Pythagoras' Theorem
Lecture 1b - Pythagoras' Theorem (cont.)
Lecture 2a - Greek Geometry
Lecture 2b - Greek Geometry (cont.)
Lecture 3a - Greek Number Theory
Lecture 3b - Greek Number Theory (cont.)
Lecture 04 - Infinity in Greek Mathematics
Lecture 5a - Number Theory and Algebra in Asia
Lecture 5b - Number Theory and Algebra in Asia (cont.)
Lecture 6a - Polynomial Equations
Lecture 6b - Polynomial Equations (cont.)
Lecture 7a - Analytic Geometry and the Continuum
Lecture 7b - Analytic Geometry and the Continuum (cont.)
Lecture 08 - Projective Geometry
Lecture 09 - Calculus
Lecture 10 - Infinite Series
Lecture 11 - Mechanics and the Solar System
Lecture 12 - Non-Euclidean Geometry
Lecture 13 - The Number Theory Revival
Lecture 14 - Mechanics and Curves
Lecture 15 - Complex Numbers and Algebra
Lecture 16 - Differential Geometry
Lecture 17 - Topology