A continuous map induces a homomorphism between fundamental groups
From Maths
Revision as of 03:55, 14 December 2016 by Alec (Talk | contribs) (It turns out I'd already made a page for the homomorphism induced by continuous maps, redirecting it to "new" one)
Redirect page
Contents
OLD PAGE
Stub grade: A
This page is a stub
This page is a stub, so it contains little or minimal information and is on a to-do list for being expanded.The message provided is:
Convey importance of theorem, demote to grade B once the page has been fleshed out a bit
- Note: there is an important precursor theorem: The relation of path-homotopy is preserved under composition with continuous maps.
Statement
Given two topological spaces, [ilmath](X,\mathcal{ J })[/ilmath] and [ilmath](Y,\mathcal{ K })[/ilmath] (which may be the same) a continuous function, [ilmath]f:X\rightarrow Y[/ilmath] induces a group homomorphism between the fundamental groups of [ilmath]X[/ilmath] and [ilmath]Y[/ilmath][1].
- We denote this induced homomorphism, [ilmath]f_*:\pi_1(X,p)\rightarrow\pi_1(Y,f(p))[/ilmath] and it is given by [ilmath]f_*:[g]\mapsto[f\circ g][/ilmath]
Proof
(Unknown grade)
This page requires one or more proofs to be filled in, it is on a to-do list for being expanded with them.
Please note that this does not mean the content is unreliable. Unless there are any caveats mentioned below the statement comes from a reliable source. As always, Warnings and limitations will be clearly shown and possibly highlighted if very important (see template:Caution et al).
References
Categories:
- Stub pages
- Pages requiring proofs
- Pages requiring proofs of unknown grade
- Theorems
- Theorems, lemmas and corollaries
- Topology Theorems
- Topology Theorems, lemmas and corollaries
- Topology
- Algebraic Topology Theorems
- Algebraic Topology Theorems, lemmas and corollaries
- Algebraic Topology
- Homotopy Theory Theorems
- Homotopy Theory Theorems, lemmas and corollaries
- Homotopy Theory
