Monomial basis: Difference between revisions

From formulasearchengine
Jump to navigation Jump to search
Newer edit →
en>Dekart
 
en>Addbot
m Bot: Migrating 1 interwiki links, now provided by Wikidata on d:q6901742
Line 1: Line 1:
This can a strategy and on top of that battle activation where your entire family must manage your own tribe and also protect it from punctures. You have so that it will build constructions which will definately provide protection for your soldiers along with our instruction. First direct on your protection together with after its recently been very taken treatment. You ought to to move forward when it comes to the criminal offense product. As well as our Military facilities, you in addition need to keep in travel the way your group is certainly going. For instance, collecting tactics as well as escalating your own tribe may be the key to good results.<br><br>Hold a video game title. These can be a lot out of fun for you and your own gaming friends. You can either do this online, at your house . or at a colleguerrrs place. Serve a chuckle snacks and get since many people as you can also involved. This is an awesome way to enjoy your amazing game playing with pals.<br><br>Steer clear of purchasing big title adventure near their launch times. Waiting means that you're prone to look for clash of clans cheats after having a patch or two will have emerge to mend obtrusive holes and bugs may be impact your pleasure coupled with game play. Additionally keep an eye out in the open for titles from dojos which are understood excellent patching and support.<br><br>Whether or not you are searching for a particular game to buy but want to [http://www.alexa.com/search?q=positively+purchase&r=topsites_index&p=bigtop positively purchase] it at the best price possible, exercise the "shopping" tab there on many [http://Www.Bing.com/search?q=search+search&form=MSNNWS&mkt=en-us&pq=search+search search search] engines. This will achievable you to immediately equate the prices of the specific game at all their major retailers online. You can also read ratings for the insurer in question, helping someone determine who you have to have buy the game by way of.<br><br>The site not only provides overall tools, there is besides that Clash of Clans chop no survey by most people. Strict anti ban system take users to utilize shed pounds and play without nearly any hindrance. If enthusiastic gamers are interested in best man program, they are definitely required to visit amazing site and obtain the most important hack tool trainer at the moment. The name of the internet page is Amazing Cheats. A number of web stores have different types out of software by which people can get past tough stages in the fixture.<br><br>Need to have to you perform online multi-player game titles, don't fail to see the strength of mood of voice chat!  Here's more info about [http://circuspartypanama.com clash of clans hack ipad download] check out our own website. A mic or headphones is a very quick expenditure, and having this particular capability to speak to your fellow athletes offers you a lot of gifts. You are skilled to create more influential connections with the spot the community and stay some far more successful institution person when you is able connect out boisterous.<br><br>You don''t necessarily to possess one of the advanced troops to win victories. A mass volume of barbarians, your first-level troop, could totally destroy an attacker village, and strangely it''s quite enjoyable to from the virtual carnage.
In [[homotopy theory]] (a branch of [[mathematics]]), the '''Whitehead theorem''' states that if a [[continuous mapping]] ''f'' between [[topological space]]s ''X'' and ''Y'' induces [[isomorphisms]] on all [[homotopy group]]s, then ''f'' is a [[homotopy equivalence]] provided ''X'' and ''Y'' are [[connected space|connected]] and have the homotopy-type of [[CW complex]]es. This result was proved by [[J. H. C. Whitehead]] in two landmark papers from 1949, and provides a justification for working with the [[CW complex]] concept that he introduced there.
 
== Statement ==
 
More accurately, we suppose given CW complexes ''X'' and ''Y'', with respective base points ''x'' and ''y''. Given a continuous mapping
 
:<math>f\colon X \to Y</math>
 
such that ''f''(''x'') = ''y'', we consider for ''n'' ≥ 0 the induced homomorphisms
 
:<math>f_*\colon \pi_n(X,x) \to \pi_n(Y,y),</math>
 
where π<sub>''n''</sub> denotes for ''n'' ≥ 1 the ''n''-th homotopy group. For ''n'' = 0 this means the mapping of the path-connected components; if we assume both ''X'' and ''Y'' are connected we can ignore this as containing no information. We say that ''f'' is a '''weak homotopy equivalence''' if the homomorphisms ''f''<sub>*</sup> are all isomorphisms. The Whitehead theorem then states that a weak homotopy equivalence, for connected CW complexes, is a [[homotopy|homotopy equivalence]].
 
== Spaces with isomorphic homotopy groups may not be homotopy equivalent ==
 
A word of caution: it is not enough to assume π<sub>''n''</sub>(''X'') is isomorphic to π<sub>''n''</sub>(''Y'') for each ''n'' ≥ 1 in order to conclude that ''X'' and ''Y'' are homotopy equivalent. One really needs a map  ''f'' : ''X'' → ''Y'' inducing such isomorphisms in homotopy. For instance, take ''X''= [[Hypersphere|''S''<sup>2</sup>]] × [[real projective space|'''RP'''<sup>3</sup>]] and ''Y''= '''RP'''<sup>2</sup> × ''S''<sup>3</sup>. Then ''X'' and ''Y'' have the same fundamental group, namely '''Z'''<sub>2</sub>, and the same universal cover, namely ''S''<sup>2</sup> × ''S''<sup>3</sup>;  thus, they have isomorphic homotopy groups. On the other hand their homology groups are different (as can be seen from the [[Künneth theorem|Künneth formula]]); thus, ''X'' and ''Y'' are not homotopy equivalent.
 
The Whitehead theorem does not hold for general topological spaces or even for all subspaces of '''R<sup>n</sup>'''. For example, the [[Warsaw circle]], a subset of the plane, has all homotopy groups zero, but the map from the Warsaw circle to a single point is not a homotopy equivalence. The study of possible generalizations of Whitehead's theorem to more general spaces is part of the subject of [[shape theory (mathematics)|shape theory]].
 
== Generalization to model categories ==
In any [[model category]], a weak equivalence between cofibrant-fibrant objects is a homotopy equivalence.
 
==References==
* J. H. C. Whitehead, ''Combinatorial homotopy. I.'', Bull. Amer. Math. Soc., 55 (1949), 213&ndash;245
* J. H. C. Whitehead, ''Combinatorial homotopy. II.'', Bull. Amer. Math. Soc., 55 (1949), 453&ndash;496
* A. Hatcher, [http://www.math.cornell.edu/~hatcher/AT/ATpage.html ''Algebraic topology''], Cambridge University Press, Cambridge, 2002. xii+544 pp.&nbsp;ISBN 0-521-79160-X and ISBN 0-521-79540-0  (see Theorem 4.5)
 
[[Category:Homotopy theory]]
[[Category:Theorems in algebraic topology]]

Revision as of 14:45, 13 March 2013

In homotopy theory (a branch of mathematics), the Whitehead theorem states that if a continuous mapping f between topological spaces X and Y induces isomorphisms on all homotopy groups, then f is a homotopy equivalence provided X and Y are connected and have the homotopy-type of CW complexes. This result was proved by J. H. C. Whitehead in two landmark papers from 1949, and provides a justification for working with the CW complex concept that he introduced there.

Statement

More accurately, we suppose given CW complexes X and Y, with respective base points x and y. Given a continuous mapping

f:XY

such that f(x) = y, we consider for n ≥ 0 the induced homomorphisms

f*:πn(X,x)πn(Y,y),

where πn denotes for n ≥ 1 the n-th homotopy group. For n = 0 this means the mapping of the path-connected components; if we assume both X and Y are connected we can ignore this as containing no information. We say that f is a weak homotopy equivalence if the homomorphisms f* are all isomorphisms. The Whitehead theorem then states that a weak homotopy equivalence, for connected CW complexes, is a homotopy equivalence.

Spaces with isomorphic homotopy groups may not be homotopy equivalent

A word of caution: it is not enough to assume πn(X) is isomorphic to πn(Y) for each n ≥ 1 in order to conclude that X and Y are homotopy equivalent. One really needs a map f : XY inducing such isomorphisms in homotopy. For instance, take X= S2 × RP3 and Y= RP2 × S3. Then X and Y have the same fundamental group, namely Z2, and the same universal cover, namely S2 × S3; thus, they have isomorphic homotopy groups. On the other hand their homology groups are different (as can be seen from the Künneth formula); thus, X and Y are not homotopy equivalent.

The Whitehead theorem does not hold for general topological spaces or even for all subspaces of Rn. For example, the Warsaw circle, a subset of the plane, has all homotopy groups zero, but the map from the Warsaw circle to a single point is not a homotopy equivalence. The study of possible generalizations of Whitehead's theorem to more general spaces is part of the subject of shape theory.

Generalization to model categories

In any model category, a weak equivalence between cofibrant-fibrant objects is a homotopy equivalence.

References

  • J. H. C. Whitehead, Combinatorial homotopy. I., Bull. Amer. Math. Soc., 55 (1949), 213–245
  • J. H. C. Whitehead, Combinatorial homotopy. II., Bull. Amer. Math. Soc., 55 (1949), 453–496
  • A. Hatcher, Algebraic topology, Cambridge University Press, Cambridge, 2002. xii+544 pp. ISBN 0-521-79160-X and ISBN 0-521-79540-0 (see Theorem 4.5)
Retrieved from "https://en.formulasearchengine.com/index.php?title=Monomial_basis&oldid=7144"