Homology of the fiberSpectral sequence for reduced homologyweak equivalence of simplicial setsHomology of loop spaceIs the suspension of a weak equivalence again a weak equivalence?localization and $E_infty$-spacesfiber, homotopy fiber of spacesVietoris-Begle theorem for simplicial setsPullback and homologyTo compare the total, base and fiber spaces of two fiber bundleshomology of a base space of a a fiber sequence

Homology of the fiber


Spectral sequence for reduced homologyweak equivalence of simplicial setsHomology of loop spaceIs the suspension of a weak equivalence again a weak equivalence?localization and $E_infty$-spacesfiber, homotopy fiber of spacesVietoris-Begle theorem for simplicial setsPullback and homologyTo compare the total, base and fiber spaces of two fiber bundleshomology of a base space of a a fiber sequence













9












$begingroup$


Let $f:Xrightarrow Y $ be a fibration (with fiber $F$) between simply connected spaces such that
$H_ast(f):H_ast(X,mathbbZ)rightarrow H_ast(Y,mathbbZ)$ is an isomorphism for $astleq n$



Is it true that the reduced homology of the fiber is $tildeH_ast(F,mathbbZ)=0$ for $astleq n$?










share|cite|improve this question











$endgroup$







  • 6




    $begingroup$
    What about the Hopf fibration $f:mathbbS^3rightarrow mathbbS^2$ with fiber $mathbbS^1$? $H_1(f)$ is an isomorphism but $H_1(mathbbS^1)=mathbbZ$.
    $endgroup$
    – abx
    Mar 18 at 12:04










  • $begingroup$
    Besides the proof below, this (the vanishing of the reduced homology of fiber below dimension n) also admits an easy proof using the Serre spectral sequence.
    $endgroup$
    – Nicholas Kuhn
    Mar 18 at 22:02















9












$begingroup$


Let $f:Xrightarrow Y $ be a fibration (with fiber $F$) between simply connected spaces such that
$H_ast(f):H_ast(X,mathbbZ)rightarrow H_ast(Y,mathbbZ)$ is an isomorphism for $astleq n$



Is it true that the reduced homology of the fiber is $tildeH_ast(F,mathbbZ)=0$ for $astleq n$?










share|cite|improve this question











$endgroup$







  • 6




    $begingroup$
    What about the Hopf fibration $f:mathbbS^3rightarrow mathbbS^2$ with fiber $mathbbS^1$? $H_1(f)$ is an isomorphism but $H_1(mathbbS^1)=mathbbZ$.
    $endgroup$
    – abx
    Mar 18 at 12:04










  • $begingroup$
    Besides the proof below, this (the vanishing of the reduced homology of fiber below dimension n) also admits an easy proof using the Serre spectral sequence.
    $endgroup$
    – Nicholas Kuhn
    Mar 18 at 22:02













9












9








9


2



$begingroup$


Let $f:Xrightarrow Y $ be a fibration (with fiber $F$) between simply connected spaces such that
$H_ast(f):H_ast(X,mathbbZ)rightarrow H_ast(Y,mathbbZ)$ is an isomorphism for $astleq n$



Is it true that the reduced homology of the fiber is $tildeH_ast(F,mathbbZ)=0$ for $astleq n$?










share|cite|improve this question











$endgroup$




Let $f:Xrightarrow Y $ be a fibration (with fiber $F$) between simply connected spaces such that
$H_ast(f):H_ast(X,mathbbZ)rightarrow H_ast(Y,mathbbZ)$ is an isomorphism for $astleq n$



Is it true that the reduced homology of the fiber is $tildeH_ast(F,mathbbZ)=0$ for $astleq n$?







at.algebraic-topology homotopy-theory






share|cite|improve this question















share|cite|improve this question













share|cite|improve this question




share|cite|improve this question








edited Mar 18 at 17:08









Peter Mortensen

1675




1675










asked Mar 18 at 11:38









ParisParis

1154




1154







  • 6




    $begingroup$
    What about the Hopf fibration $f:mathbbS^3rightarrow mathbbS^2$ with fiber $mathbbS^1$? $H_1(f)$ is an isomorphism but $H_1(mathbbS^1)=mathbbZ$.
    $endgroup$
    – abx
    Mar 18 at 12:04










  • $begingroup$
    Besides the proof below, this (the vanishing of the reduced homology of fiber below dimension n) also admits an easy proof using the Serre spectral sequence.
    $endgroup$
    – Nicholas Kuhn
    Mar 18 at 22:02












  • 6




    $begingroup$
    What about the Hopf fibration $f:mathbbS^3rightarrow mathbbS^2$ with fiber $mathbbS^1$? $H_1(f)$ is an isomorphism but $H_1(mathbbS^1)=mathbbZ$.
    $endgroup$
    – abx
    Mar 18 at 12:04










  • $begingroup$
    Besides the proof below, this (the vanishing of the reduced homology of fiber below dimension n) also admits an easy proof using the Serre spectral sequence.
    $endgroup$
    – Nicholas Kuhn
    Mar 18 at 22:02







6




6




$begingroup$
What about the Hopf fibration $f:mathbbS^3rightarrow mathbbS^2$ with fiber $mathbbS^1$? $H_1(f)$ is an isomorphism but $H_1(mathbbS^1)=mathbbZ$.
$endgroup$
– abx
Mar 18 at 12:04




$begingroup$
What about the Hopf fibration $f:mathbbS^3rightarrow mathbbS^2$ with fiber $mathbbS^1$? $H_1(f)$ is an isomorphism but $H_1(mathbbS^1)=mathbbZ$.
$endgroup$
– abx
Mar 18 at 12:04












$begingroup$
Besides the proof below, this (the vanishing of the reduced homology of fiber below dimension n) also admits an easy proof using the Serre spectral sequence.
$endgroup$
– Nicholas Kuhn
Mar 18 at 22:02




$begingroup$
Besides the proof below, this (the vanishing of the reduced homology of fiber below dimension n) also admits an easy proof using the Serre spectral sequence.
$endgroup$
– Nicholas Kuhn
Mar 18 at 22:02










1 Answer
1






active

oldest

votes


















21












$begingroup$

As usual, there's no loss of generality in assuming that $f$ is the inclusion of a subspace $Xsubset Y$, replacing $Y$ with the homotopy equivalent mapping cylinder of $f$ if necessary. By your assumptions and the five lemma, $H_*(Y,X)=0$ for $*leq n$, and the pair $(Y,X)$ is simply connected, therefore by the Hurewicz theorems $pi_*(Y,X)=0$ for $*leq n$. If $F$ denotes the homotopy fiber of $f$, then $pi_*(Y,X)=pi_*-1(F)$ in all dimensions, hence the previous computation ensures that $F$ is $(n-1)$-connected, so $H_*(F)=0$ for $*leq n-1$. As @abx shows in the comment above, in general $H_n(F)$ won't be trivial. The higher-dimensional Hopf fibrations provide further counterexamples, where even the fiber is simply connected.






share|cite|improve this answer











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    oldest

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    21












    $begingroup$

    As usual, there's no loss of generality in assuming that $f$ is the inclusion of a subspace $Xsubset Y$, replacing $Y$ with the homotopy equivalent mapping cylinder of $f$ if necessary. By your assumptions and the five lemma, $H_*(Y,X)=0$ for $*leq n$, and the pair $(Y,X)$ is simply connected, therefore by the Hurewicz theorems $pi_*(Y,X)=0$ for $*leq n$. If $F$ denotes the homotopy fiber of $f$, then $pi_*(Y,X)=pi_*-1(F)$ in all dimensions, hence the previous computation ensures that $F$ is $(n-1)$-connected, so $H_*(F)=0$ for $*leq n-1$. As @abx shows in the comment above, in general $H_n(F)$ won't be trivial. The higher-dimensional Hopf fibrations provide further counterexamples, where even the fiber is simply connected.






    share|cite|improve this answer











    $endgroup$

















      21












      $begingroup$

      As usual, there's no loss of generality in assuming that $f$ is the inclusion of a subspace $Xsubset Y$, replacing $Y$ with the homotopy equivalent mapping cylinder of $f$ if necessary. By your assumptions and the five lemma, $H_*(Y,X)=0$ for $*leq n$, and the pair $(Y,X)$ is simply connected, therefore by the Hurewicz theorems $pi_*(Y,X)=0$ for $*leq n$. If $F$ denotes the homotopy fiber of $f$, then $pi_*(Y,X)=pi_*-1(F)$ in all dimensions, hence the previous computation ensures that $F$ is $(n-1)$-connected, so $H_*(F)=0$ for $*leq n-1$. As @abx shows in the comment above, in general $H_n(F)$ won't be trivial. The higher-dimensional Hopf fibrations provide further counterexamples, where even the fiber is simply connected.






      share|cite|improve this answer











      $endgroup$















        21












        21








        21





        $begingroup$

        As usual, there's no loss of generality in assuming that $f$ is the inclusion of a subspace $Xsubset Y$, replacing $Y$ with the homotopy equivalent mapping cylinder of $f$ if necessary. By your assumptions and the five lemma, $H_*(Y,X)=0$ for $*leq n$, and the pair $(Y,X)$ is simply connected, therefore by the Hurewicz theorems $pi_*(Y,X)=0$ for $*leq n$. If $F$ denotes the homotopy fiber of $f$, then $pi_*(Y,X)=pi_*-1(F)$ in all dimensions, hence the previous computation ensures that $F$ is $(n-1)$-connected, so $H_*(F)=0$ for $*leq n-1$. As @abx shows in the comment above, in general $H_n(F)$ won't be trivial. The higher-dimensional Hopf fibrations provide further counterexamples, where even the fiber is simply connected.






        share|cite|improve this answer











        $endgroup$



        As usual, there's no loss of generality in assuming that $f$ is the inclusion of a subspace $Xsubset Y$, replacing $Y$ with the homotopy equivalent mapping cylinder of $f$ if necessary. By your assumptions and the five lemma, $H_*(Y,X)=0$ for $*leq n$, and the pair $(Y,X)$ is simply connected, therefore by the Hurewicz theorems $pi_*(Y,X)=0$ for $*leq n$. If $F$ denotes the homotopy fiber of $f$, then $pi_*(Y,X)=pi_*-1(F)$ in all dimensions, hence the previous computation ensures that $F$ is $(n-1)$-connected, so $H_*(F)=0$ for $*leq n-1$. As @abx shows in the comment above, in general $H_n(F)$ won't be trivial. The higher-dimensional Hopf fibrations provide further counterexamples, where even the fiber is simply connected.







        share|cite|improve this answer














        share|cite|improve this answer



        share|cite|improve this answer








        edited Mar 18 at 19:24









        ThiKu

        6,33012137




        6,33012137










        answered Mar 18 at 12:14









        Fernando MuroFernando Muro

        11.9k23465




        11.9k23465



























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