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Its Euler characteristic is 0, by the product property. More generally, any compact parallelizable manifold, including any compact Lie group, has Euler characteristic 0. [13] The Euler characteristic of any closed odd-dimensional manifold is also 0. [14] The case for orientable examples is a corollary of Poincaré duality.
The odd–even condition follows from Euler's formula. Any simplicial generalized homology sphere is an Eulerian lattice. Let L be a regular cell complex such that | L | is a manifold with the same Euler characteristic as the sphere of the same dimension (this condition is vacuous if the dimension is odd).
Thus the Euler class is a generalization of the Euler characteristic to vector bundles other than tangent bundles. In turn, the Euler class is the archetype for other characteristic classes of vector bundles, in that each "top" characteristic class equals the Euler class, as follows. Modding out by 2 induces a map
In calculating the Euler characteristic of S′ we notice the loss of e P − 1 copies of P above π(P) (that is, in the inverse image of π(P)). Now let us choose triangulations of S and S′ with vertices at the branch and ramification points, respectively, and use these to compute the Euler characteristics.
Traditionally this is called the Euler class. This is [] = [] = since the class of can be represented by five points (by Bézout's theorem). The Euler characteristic can then be used to compute the Betti numbers for the cohomology of by using the definition of the Euler characteristic and using the Lefschetz hyperplane theorem.
Then use the fact that the degree of a map from the boundary of an n-dimensional manifold to an (n–1)-dimensional sphere, that can be extended to the whole n-dimensional manifold, is zero. [citation needed] Finally, identify this sum of indices as the Euler characteristic of M.
A more recent discovery is of a series of new types of carbon molecule, known as the fullerenes (see Curl, 1991). Although C 60 , the most easily produced fullerene, looks more or less spherical, some of the larger varieties (such as C 240 , C 480 and C 960 ) are hypothesised to take on the form of slightly rounded icosahedra, a few nanometres ...
These effects add as vectors to make the overall molecule polar. A polar molecule has a net dipole as a result of the opposing charges (i.e. having partial positive and partial negative charges) from polar bonds arranged asymmetrically. Water (H 2 O) is an example of a polar molecule since it has a slight positive charge on one side and a ...