4
$\begingroup$

I am trying to calculate the fundamental group of $\mathbb{R}^3- \{ x\text{-axis}\cup y\text{-axis}\cup z\text{-axis}\}$.

Idea: I think we can show it deformation retracts on 2-sphere minus 4 points.

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    I think it's the $2$-sphere minus $6$ points...?2012-11-29
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    @ Yuan please more explanation !2012-11-29
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    @QiaochuYuan: I don't think so. isn't the fundamental group of what you're saying isomorphic to Z? I don't think hina's group is...2012-11-29
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    @ all ,I am not all comfortable with this subject any comment requires some explanation for me.2012-11-29
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    @akkkk: No, I agree with Qiaochu. Consider the homotopy $F(t,x)=(1-t)x+t\frac{x}{||x||}$ between the identity and the deformation retraction.2012-11-29
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    @hina: what is unclear.2012-11-29
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    I mean writing down a precise homotopy requires first an intuition.So could you please tell how one will proceed for such questions?2012-11-29
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    @hine: It's six points, because you have the negative and positive ray on each axis. Since the sphere minus one point is homeomorphic to the plane, your space is homotopy-equivalent to the plane minus five points.2012-11-29
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    @ Rhys: Then it's fundamental group should be isomorphic to the fundamental group of wedge of 5 circles,which is free group on 5 symbols.2012-11-29
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    @Yuan: It will be really great for me if you can explain how the my space is homotopy equivalent to sphere minus 6 points.2012-11-29
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    @all: thanks a lot ,finally got it completely !! :)2012-11-29

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