weierstrass-casorati theorem

The Weierstrass-Casorati theorem in complex analysis describes the remarkable behavior of holomorphic functions near essential singularities. Start with an open subset U of the complex plane containing the number z₀, and a holomorphic function f defined on U - {z₀}. The complex number z₀ is called an essential singularity if there is no natural number n such that the limit

\lim_{z \to z_0} f(z) \cdot (z - z_0)^n

exists. For example, the function f(z) = exp(1/z) has an essential singularity at z₀ = 0, but the function g(z) = 1/z³ does not (it has a pole at 0). The Weierstrass-Casorati theorem states that

if f has an essential singularity at z₀, and V is any neighborhood of z₀ contained in U, then f(V) is dense in C.

Or spelled out: if ε > 0 and w is any complex number, then there exists a complex number z in U with |z - z₀| < ε and |f(z) - w| < ε.

The theorem is considerably strengthened by Picard's great theorem, which states, in the notation above, that f assumes every complex value, with one possible exception, infinitely often on V.

<< Previous

Word Browser

Next >>

wellington
wookey hole
walter gropius
walkman
william seward burroughs
wernigerode
wash
watchmen
wassily kandinsky
whistleblower
westwood studios

william ames
wole soyinka
war of independence
white russian (cocktail)
wind instrument
wellington (disambiguation)
william wallace
willard van orman quine
weightlessness
world calendar
white wedding

wannsee conference
west point (disambiguation)
wombat
warhead
walt whitman
world trade organization
wenceslas i of bohemia
windows xp
wesley
woodwind instrument
wade giles

woodstock festival
washtub bass
wireless application protocol
wheatstone bridge
worms, germany
website
william bligh
wiyn consortium
world chess federation
william goldman
wallace shawn