7 Let $\cU = \{U_\alpha\}$ be an open cover of $X$ which affords a partition of

     7 Let $\cU = \{U_\alpha\}$ be an open cover of $X$ which affords a partition of

     8 unity $\{r_\alpha\}$.

     8 unity $\{r_\alpha\}$.

     9 (That is, $r_\alpha : X \to [0,1]$; $r_\alpha(x) = 0$ if $x\notin U_\alpha$;

     9 (That is, $r_\alpha : X \to [0,1]$; $r_\alpha(x) = 0$ if $x\notin U_\alpha$;

    10 for fixed $x$, $r_\alpha(x) \ne 0$ for only finitely many $\alpha$; and $\sum_\alpha r_\alpha = 1$.)

    10 for fixed $x$, $r_\alpha(x) \ne 0$ for only finitely many $\alpha$; and $\sum_\alpha r_\alpha = 1$.)

    11 Since $X$ is compact, we will further assume that $r_\alpha = 0$ (globally) 

    11 Since $X$ is compact, we will further assume that $r_\alpha = 0$ (globally) 

    13 

    13 

    14 Consider  $C_*(\Maps(X\to T))$, the singular chains on the space of continuous maps from $X$ to $T$.

    14 Consider  $C_*(\Maps(X\to T))$, the singular chains on the space of continuous maps from $X$ to $T$.

    15 $C_k(\Maps(X \to T))$ is generated by continuous maps

    15 $C_k(\Maps(X \to T))$ is generated by continuous maps

    16 \[

    16 \[

    17 	f: P\times X \to T ,

    17 	f: P\times X \to T ,

   212 Let $G_* \subset \cX_*$ denote the chains adapted to an open cover $\cU$

   212 Let $G_* \subset \cX_*$ denote the chains adapted to an open cover $\cU$

   213 of $X$.

   213 of $X$.

   214 Then $G_*$ is a strong deformation retract of $\cX_*$.

   214 Then $G_*$ is a strong deformation retract of $\cX_*$.

   215 \end{lemma}

   215 \end{lemma}

   216 \begin{proof}

   216 \begin{proof}

   218 $\bd f \in G_{k-1}$ there exists $h\in \cX_{k+1}$ with $\bd h = f + g$ and $g \in G_k$.

   218 $\bd f \in G_{k-1}$ there exists $h\in \cX_{k+1}$ with $\bd h = f + g$ and $g \in G_k$.

   219 This is exactly what Lemma \ref{basic_adaptation_lemma}

   219 This is exactly what Lemma \ref{basic_adaptation_lemma}

   220 gives us.

   220 gives us.

   221 More specifically, let $\bd P = \sum Q_i$, with each $Q_i\in G_{k-1}$.

   221 More specifically, let $\bd P = \sum Q_i$, with each $Q_i\in G_{k-1}$.

   222 Let $F: I\times P\times X\to T$ be the homotopy constructed in Lemma \ref{basic_adaptation_lemma}.

   222 Let $F: I\times P\times X\to T$ be the homotopy constructed in Lemma \ref{basic_adaptation_lemma}.