Is every 2 dimensional manifold whose boundary is a cycle, a continuous image of the unit disc? Maybe it happens if the space is good enough? I wanted to prove an equality between two definitions I've seen to simply-connectedness. (Every continuous image the circle is null homotopic, and every cycle is a boundary of another manifold). I also want to know if the vice versa holds: if any continuous image of the unit disc is a manifold. Please keep in mind I don't have a lot of knowledge on the subject. I wasn't sure about which tags I should add to this question. Thanks!
2-Manifold an image of the unit disc?
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differential-topology
manifolds
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0This is kind of a duplicate of http://math.stackexchange.com/questions/18083/is-every-compact-n-manifold-a-compactification-of-mathbbrn – 2012-12-09
1 Answers
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Any compact, connected, locally connected second-countable Hausdorff space (in particular any compact connected manifold with boundary) is a continuous image of the unit interval, and thus of the unit disk. See the Hahn–Mazurkiewicz theorem.
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0Then how every image of the circle is null homotopic => every cycle is a boundary? – 2012-12-10