born c. 395–390 bc, Cnidus, Asia Minor [now in Turkey] died c. 342–337 bc, Cnidus
Eudoxus’s contributions to the early theory of proportions (equal ratios) forms the basis for the general account of proportions found in Book V of Euclid’s Elements (c. 300 bc). Where previous proofs of proportion required separate treatments for lines, surfaces, and solids, Eudoxus provided general proofs. It is unknown, however, how much later mathematicians may have contributed to the form found in the Elements. He certainly formulated the bisection principle that given two magnitudes of the same sort one can continuously divide the larger magnitude by at least halves so as to construct a part that is smaller than the smaller magnitude.
Similarly, Eudoxus’s theory of incommensurable magnitudes (magnitudes lacking a common measure) and the method of exhaustion (its modern name) influenced Books X and XII of the Elements, respectively. Archimedes (c. 285–212/211 bc), in On the Sphere and Cylinder and in the Method, singled out for praise two of Eudoxus’s proofs based on the method of exhaustion: that the volumes of pyramids and cones are one-third the volumes of prisms and cylinders, respectively, with the same bases and heights. Various traces suggest that Eudoxus’s proof of the latter began by assuming that the cone and cylinder are commensurable, before reducing the case of the cone and cylinder being incommensurable to the commensurable case. Since the modern notion of a real number is analogous to the ancient notion of ratio, this approach may be compared with 19th-century definitions of the real numbers in terms of rational numbers. Eudoxus also proved that the areas of circles are proportional to the squares of their diameters.
Eudoxus is also probably largely responsible for the theory of irrational magnitudes of the form a ± b (found in the Elements, Book X), based on his discovery that the ratios of the side and diagonal of a regular pentagon inscribed in a circle to the diameter of the circle do not fall into the classifications of Theaetetus of Athens (c. 417–369 bc). According to Eratosthenes of Cyrene (c. 276–194 bc), Eudoxus also contributed a solution to the problem of doubling the cube—that is, the construction of a cube with twice the volume of a given cube.
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