Exercises:Mond - Topology - 1/Question 8
Section B
Question 8
Suppose that [ilmath]f:X\rightarrow Y[/ilmath] is a continuous function that is also surjective, and let [ilmath]\sim[/ilmath] denote the equivalence relation induced by [ilmath]f[/ilmath] on [ilmath]X[/ilmath].
Show that if [ilmath]X[/ilmath] is compact and [ilmath]Y[/ilmath] is Hausdorff then [ilmath]\frac{X}{\sim} [/ilmath] is homeomorphic to [ilmath]Y[/ilmath].
Which theorem of group theory does this resemble?
Proof
Recall the result of question 5:
Using that we instantly obtain:
- [ilmath]\bar{f}:\frac{X}{\sim}\rightarrow Y[/ilmath] that is a continuous bijection
- We must show this is a homeomorphism.
Suppose [ilmath]X[/ilmath] is compact, then [ilmath]\frac{X}{\sim} [/ilmath] is compact also as the image of a compact set is compact[Note 1] and [ilmath]\pi:X\rightarrow\frac{X}{\sim} [/ilmath] is continuous (see quotient topology for more details)
We then apply the "compact-to-Hausdorff theorem" which shows us that [ilmath]\bar{f} [/ilmath] is actually a homeomorphism
This is similar to the first group isomorphism theorem in that it uses passing to the quotient through morphisms in the category to yield an isomorphism (which are called homeomorphisms in TOP)
Notes
- ↑ Note to marker:
- Compactness a a space or a subset ... there is no difference! So this is fine
References