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Bernard Bolzano (1781-1848). Studied philosophy, mathematics and physics in Prague starting 1796, doctorate 1804. Decided to become a priest was ordained in 1804 and took up a chair in the philosophy of religion.
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Bernard Bolzano (1781-1848) • Studied philosophy, mathematics and physics in Prague starting 1796, doctorate 1804. • Decided to become a priest was ordained in 1804 and took up a chair in the philosophy of religion. • His sermons were against government policy and he was dismissed. He then turned back to mathematics. He worked on Cauchy sequences - as they are called today. • Worked on Set-Theory: Paradoxien des Unendlichen 1851 • Most famous theorem: The theorem of Bolzano-Weierstrass: every bounded sequence of real numbers contains a convergent subsequence. The intermediate value theorem is related to this theorem which he also proved. • His works were however not widely known.
Bernard Bolzano (1781-1848)A First Analysis of the Infinite • A first treaty on the infinite which does not discard it as an undesirable source for paradox. • Exploited the tool of 1-1 correspondence. • For infinite sets the idea of 1-1 correspondence is not well behaved with respect to inclusion. • There are 1-1 correspondences between sets and proper subsets of them.
Bolzano’s Paradoxes of the infinite • §19. Not all infinite sets are equal with respect to their multiplicity • One could say that all infinite sets are infinite and thus one cannot compare them, but most people will agree that an interval in the real line is certainly a part and thus agree to a comparison of infinite sets. • §20 There are distinct infinite sets between which there is 1-1 correspondence. It is possible to have a 1-1 correspondence between an infinite set and a proper subset of it. • y=12/5x and y=5/12x gives a 1-1 correspondence between [0,5] and [0,12]. • §21 If two sets A and B are infinite, one can not conclude anything about the equality of the sets even if there is a 1-1 correspondence. • If A and B are finite and A is a subset of B such that there is a 1-1 correspondence, then indeed A=B • The above property is thus characteristic of infinite sets.