Difference between revisions of "C(I,X)"
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* [[Omega(X,b)|{{M|\Omega(X,b)}}]] | * [[Omega(X,b)|{{M|\Omega(X,b)}}]] | ||
** [[The fundamental group]], {{M|\pi_1(X,b)}}, which is the {{link|quotient|equivalence relation}} of {{M|\Omega(X,b)}} with the [[equivalence relation]] of [[end point preserving homotopic]] loops. | ** [[The fundamental group]], {{M|\pi_1(X,b)}}, which is the {{link|quotient|equivalence relation}} of {{M|\Omega(X,b)}} with the [[equivalence relation]] of [[end point preserving homotopic]] loops. | ||
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==Notes== | ==Notes== | ||
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Latest revision as of 05:08, 3 November 2016
Grade: B
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Something would be good, should be abundant
Contents
Definition
Let [ilmath](X,\mathcal{ J })[/ilmath] be a topological space and let [ilmath]I:=[0,1]\subset\mathbb{R}[/ilmath] - the closed unit interval. Then [ilmath]C(I,X)[/ilmath] denotes the set of continuous functions between the interval, considered with the subspace topology it inherits from the reals[Note 1] - as usual.
Specifically [ilmath]C(I,X)[/ilmath] or [ilmath]C([0,1],X)[/ilmath] is the space of all paths in [ilmath](X,\mathcal{ J })[/ilmath]. That is:
- if [ilmath]f:I\rightarrow X\in C(I,X)[/ilmath] then [ilmath]f[/ilmath] is a path with initial point [ilmath]f(0)[/ilmath] and final/terminal point [ilmath]f(1)[/ilmath]
It includes as a subset, [ilmath]\Omega(X,b)[/ilmath] - the set of all loops in [ilmath]X[/ilmath] based at [ilmath]b[/ilmath][Note 2] - for all [ilmath]b\in X[/ilmath].
See also
- The set of continuous functions between topological spaces
- [ilmath]\Omega(X,b)[/ilmath]
- The fundamental group, [ilmath]\pi_1(X,b)[/ilmath], which is the quotient of [ilmath]\Omega(X,b)[/ilmath] with the equivalence relation of end point preserving homotopic loops.
- Index of spaces, sets and classes
Notes
- ↑ That topology is that generated by the metric [ilmath]\vert\cdot\vert[/ilmath] - absolute value.
- ↑ A loop is a path where [ilmath]f(0)=f(1)[/ilmath], the loop is said to be based at [ilmath]b:=f(0)=f(1)[/ilmath]