Quartic plane curve: Difference between revisions

Revision as of 13:15, 15 March 2013

In mathematics, a solid Klein bottle is a 3-manifold (with boundary) homeomorphic to the quotient space obtained by gluing the top of $\scriptstyle D^{2}\times I$ (cylinder) to the bottom by a reflection, i.e. the point $\scriptstyle (x,0)\,$ is identified with $\scriptstyle (r(x),1)\,$ where $\scriptstyle r\,$ is reflection of the disc $\scriptstyle D^{2}\,$ across a diameter.

Mö x I: the circle of black points marks an absolute deformation retract of this space, and any regular neighbourhood of it has again boundary as a Klein bottle, so Mö x I is an onion of Klein bottles

Note the boundary of the solid Klein bottle is a Klein bottle.

Alternatively, one can visualize the solid Klein bottle as the trivial product $\scriptstyle M{\ddot {o}}\times I$ , of the möbius strip and an interval $\scriptstyle I=[0,1]$ . In this model one can see that the core central curve at 1/2 has a regular neighborhood which is again a trivial cartesian product: $\scriptstyle M{\ddot {o}}\times [{\frac {1}{2}}-\varepsilon ,{\frac {1}{2}}+\varepsilon ]$ and whose boundary is a Klein bottle as previously noticed

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+In [[mathematics]], a '''solid Klein bottle''' is a [[3-manifold]] (with boundary) [[homeomorphism|homeomorphic]] to the [[quotient space]] obtained by gluing the top of <math>\scriptstyle D^2 \times I</math> (cylinder) to the bottom by a reflection, i.e. the point <math>\scriptstyle (x,0)\,</math> is identified with <math>\scriptstyle (r(x), 1)\,</math> where <math>\scriptstyle r\,</math> is reflection of the disc <math>\scriptstyle D^2\,</math> across a diameter.
+[[File:Moxi003.JPG|120px|thumb|right|Mö x I: the circle of black points marks an absolute [[deformation retract]] of this space, and any regular neighbourhood of it has again boundary as a Klein bottle, so Mö x I is an onion of Klein bottles]]
+Note the boundary of the solid Klein bottle is a [[Klein bottle]].
+Alternatively, one can visualize the solid Klein bottle as the [[I-bundle|trivial product]] <math>\scriptstyle M\ddot{o}\times I</math>, of the [[möbius strip]] and an interval <math>\scriptstyle I=[0,1]</math>. In this model one can see that
+the core central curve at 1/2 has a regular neighborhood which is again a trivial [[cartesian product]]: <math>\scriptstyle M\ddot{o}\times[\frac{1}{2}-\varepsilon,\frac{1}{2}+\varepsilon]</math> and whose boundary is a Klein bottle as previously noticed
+[[Category:3-manifolds]]
+{{topology-stub}}

Quartic plane curve: Difference between revisions

Revision as of 13:15, 15 March 2013

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