Proving differentiability of function on a Lie group.

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Daverz
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On page 116 of Choquet-Bruhat, Analysis, Manifolds, and Physics, Lie groups are defined, and the first exercise after that asks you to prove that
for a Lie group [itex]G[/itex]

[itex] f:G \rightarrow G; x \mapsto x^{-1}[/itex]

is differentiable. I know from the previous definitions that a function [itex]f[/itex] on a manifold is differentiable at [itex]x[/itex] if

[itex] \psi \circ f \circ \phi^{-1}[/itex]

is differentiable, where [itex](U, \phi)[/itex] and [itex](W, \psi)[/itex] are charts for neighborhoods of [itex]x[/itex] and [itex]y=f(x)=x^{-1}[/itex]. It's probably an indication of how weak my analysis is, but I don't see how to proceed from there. Can anyone point me in the right direction?
 
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In the books which I have used your exercise is the definition of the Lie group :smile: ?.
 
Ah, OK, I see it now, you just prove it from the definition of a Lie group, which is that the map
from [itex]G \times G \rightarrow G; (x, y) \mapsto x y^{-1}[/itex] is differentiable. Just let [itex]x = e[/itex], the identity element. I was making it way too difficult. BTW, does anyone know how to keep inline Latex from showing up above the line like that.
 
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