Difference between revisions of "Product topology"

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(Created page with "Given a set {{M|X_{\alpha\in I} }} of indexed topological spaces, we define the product topology, denoted <math>\prod_{\alpha\in I}X_\al...")
 
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<math>p_\alpha:\prod_{\beta\in I}X_\beta\rightarrow X_\alpha</math> which take the [[Tuple|tuple]] <math>(x_\alpha)_{\alpha\in I}\rightarrow x_{\beta}</math>
 
<math>p_\alpha:\prod_{\beta\in I}X_\beta\rightarrow X_\alpha</math> which take the [[Tuple|tuple]] <math>(x_\alpha)_{\alpha\in I}\rightarrow x_{\beta}</math>
  
This leads to the main property of the product topology, which can best be expressed as a diagram. Will add that later.
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This leads to the main property of the product topology, which can best be expressed as a diagram. As shown below:
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10 x 5 = 50! this is a product
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{{Todo}}
 
{{Todo}}
 
{{Definition|Topology}}
 
{{Definition|Topology}}

Revision as of 07:36, 23 August 2015

Given a set [ilmath]X_{\alpha\in I} [/ilmath] of indexed topological spaces, we define the product topology, denoted [math]\prod_{\alpha\in I}X_\alpha[/math] (yes the Cartesian product) is the coarsest topology such that all the projection maps are continuous.

The projection maps are:

[math]p_\alpha:\prod_{\beta\in I}X_\beta\rightarrow X_\alpha[/math] which take the tuple [math](x_\alpha)_{\alpha\in I}\rightarrow x_{\beta}[/math]

This leads to the main property of the product topology, which can best be expressed as a diagram. As shown below:

10 x 5 = 50! this is a product



TODO: