Structured chain complexes III (Ex)
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Let be the -dimensional symmetric complex where
and the symmetric structure is given by
Let be the cellular chain complex of the unit interval and let , be the inclusions of the two ends. Find a -dimensional chain such that
References
$-dimensional symmetric complex where $$ \bar \Zz_i := \begin{cases} \Zz & i = 0 \ 0 & i \neq 0, \end{cases} $$ and the symmetric structure is given by $$ \nu = 1 \in (\bar \Zz \otimes \bar \Zz)_0. $$ Let $I$ be the cellular chain complex of the unit interval and let $i_0$, $i_1$ be the inclusions of the two ends. Find a (\bar \Zz,\nu) be the -dimensional symmetric complex whereand the symmetric structure is given by
Let be the cellular chain complex of the unit interval and let , be the inclusions of the two ends. Find a -dimensional chain such that
References
$-dimensional chain $\omega \in W^{\%}(I)$ such that $$ d_{W^{\%}{I}} (\omega) = i_1^{\%} (\nu) - i_0^{\%} (\nu). $$ == References == {{#RefList:}} [[Category:Exercises]] [[Category:Exercises without solution]](\bar \Zz,\nu) be the -dimensional symmetric complex whereand the symmetric structure is given by
Let be the cellular chain complex of the unit interval and let , be the inclusions of the two ends. Find a -dimensional chain such that