How Can the Quotient Group G/Go Act Effectively on X?

learningphysics
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This is question 53\gamma. Given a group G of transformations that acts on X... and a subgroup of G, Go (g * x = x for all x for each g in Go), show that the quotient group G/Go acts effectively on X.

A group G "acts effectively" on X, if g * x = x for all x implies that g = e, where g is a member of G.

I don't see how the quotient group G/Go can act on X... Each member of the quotient group, is itself a set of transformations. For example, take Go which is a member of G/Go. It seems to me that Go * x (where x belongs to X) is undefined, since Go is not a one to one correspondence from X to X (each member of Go is, but Go itself isn't).

I'd appreciate any help. Thanks.
 
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Hint.

Let h be in G, so [h] = hG0 is in G/G0. Is [h]*x := h*x well defined?
 
George Jones said:
Hint.

Let h be in G, so [h] = hG0 is in G/G0. Is [h]*x := h*x well defined?

Hi George... Thanks for the reply.

It seems to me like it is not well defined. There may be two different functions... say h1 and h2, such that [h1] =

... So is [h1]*x = h1*x or h2*x ?

 
learningphysics said:
So is [h1]*x = h1*x or h2*x ?

In general, yes. However, in this case, we know something about the G-action of elements of G0. Can this be exploited to show that G/G0 action that I gave is well defined?
 
You should try to verify this yourself, it is quite straightfoward. What does [h1]=

mean? That there is a k in Go such that h1k=h2. What was the definition of Go?

 
Ah... I see now... h1*x = h2*x. Thanks George and Matt.
 
Last edited:
learningphysics said:
Ah... I see now... h1*x = h2*x.

Careful - this isn't isn't necessarily true. But what is true?

Maybe you just made a typo.
 
George Jones said:
Careful - this isn't isn't necessarily true. But what is true?

Maybe you just made a typo.

Hmm... If [h1]=

then there's a k in Go such that h1= h2k so

h1 * x = h2k * x
h1 * x = h2 * (k * x), then since k is in Go, k * x = x

h1 * x = h2 * x

I'm probably making a really stupid mistake somewhere. Sorry guys... I appreciate the patience.

 
Sorry - my mistake.

Edit: I was thinking of the end result, i.e, the G/Go action.
 
  • #10
if you call all the elements of G that act trivially, "the identity", then the only elements that act trivially after that are called the identity.
 

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