The course is worth 4 credits and will meet M, R 4:40-6:40.
Texts: Journey through Genius: The Great Theorems of Mathematics, by William Dunham.
Office hours: M 2.30-3.30, T 12.30-1.30, and by appointment.
Here is additional information about the organization of the course (date of test, grading policy, etc.).
For a great account of the developement of numbers see "The Universal History of Numbers" by Georges Ifrah.
Ishango bone, ants-that-count, fish-that-count, animals-that-count and more animals-that-count.
Here are some pages of the book "Episodes from the early history of mathematic" by A. Aaboe.
Here is a nice article by J Friberg about Babylonian mathematics, and here are some pages of the book "A remarkable collection of Babylonian mathematical texts" by J. Friberg.
Here, here, and here is the tablet with square root of 2. Here is an article about Babylonian way of aproximation of square roots.
Here and here is a discussion of the tablet Plimpton 322. Here, here , and here are nice articles about interpratations of Plimpton 322.
Here is another interesting paper by J. Friberg about some amazing Babylonian tablets.
Here is a short discussion of Egyptian hieroglyphic numerals, here is a picture of a stone with some numerals, here and here are both the hieroglyphic and hieratic numerals.
Here is a nice discussion of Egyptian fractions, here is an interesting article about modern results on Egyptian fractions, and here is the 2/n table of from the Rhind (Ahmes) papyrus.
Here is a discussion of the Egyptian papyri.
Here is a short discussion of the Ahmes papyrus, and here is a discussion of the Moscow papyrus.
Here and here is a discussion of Greek number systems.
A short biography of Thalesand Pythagoras.
Here is an interesting view on Pythagoras and his brotherhood.
A short biography of Euclid and Euclid again.
Here is a nice version of Euclids "Elements", and here is a short note about Euclid and his "Elements".
Here is a discussion of the Wallace-Gerwien-Bolyai Theorem. Here is a discussion of an analogous problem in three dimensions (often called Hilbert's third problem).
Here is a discussion of the lunes and here is another discussion of the lunes.
Here is a short discussion of the problems of antiquity.
Here is a short history of the problem of angle trisection and here and here is a discussion of the problem of doubling a cube.
Here is a short history of perfect numbers.
Here is a discussion of conchoid and its use to construct two mean proportionals. Here you can play with conchoids. Here is a conchoidograph and here and here is a more classical version of the tool.
Here is a nice note about continued fractions and its connections to Greek geometry.
Here is a very interesting take on continued fractions and Greek mathematics (it is a challenging read though). See in particular the Appendix.
Here are the works of Archimedes, and here is a nice description of Archimedes' approximation of pi.
Here is a discussion of how Archimedes arrived at the formula for a volume of a ball (his "Method").
Here is a an interesting description of Stomachion and the recent developments about it. Here and here is more about Stomachion.
Here is a nice translation of the "Quadrature of the Parabola" by Archimedes.
Here is a discussion of the spiral of Archimedes.
Here is a discussion of the angle trisection method of Archimedes.
Here is a short biography of Apollonius.
Here is a nice essay on conic sections.
Here is a translation of "Conics" by Apollonius.
Here are some basic properties of conics.
Here you can play with Apollonius circles, and here you can find a proof.
Here is interesting modern take on Almagest and astronomy in general.
Here and here are short movies about how Eratosthenes measured the circumference of the Earth.
Here is a discussion of Ptolemy's theorem.
Here is a discussion of the model of planetary motion dues to Eudoxus.
Here is an applet to play with spherical geometry.
Here is a discussion of Menealus's Theorem, with several proofs and additional topics.
Here is Newton's approach to the duplication of a cube. A homework problem asks you to justify this method.
Here, and here are are 2 different proofs of Heron's formula.
Here is a translation of Diophantus's "Aritmetica" with extensive introduction (you need djvu viewer to open it), here are other formats available (pdf, kindle, etc.).
Here is a very nice paper about Diophantus and his influence on the development of algebra and number theory.
A short biography of Pappus, Theon, Hypatia, and Proclus.
Here is the Pappus' hexagon theorem. Here is a discussion of the Pappus-Guldin theorem.
Biographies of first Indian mathematicians Aryabhata I, Brahmagupta, Bhaskara I
A short biography of Fibonacci, Luca Pacioli, Scipione del Ferro, Nicolo Fontana (Tartaglia), Girolamo Cardano, Lodovico Ferrari, and Rafael Bombelli.
Here is a nice article about how Wallis discovered some of his results.
Here you can see how Newton discovered his binomial theorem. Here is a short account of the main contributions of Newton and Leibniz to calculus.
Here is an archive of all the works of Euler. In particular, here is a translation of the original articles in which Euler computes the sum of squeres of reciprocals of the natural numbers.
Here is a discussion of Fermat numbers.
