Let $M$ be an $m$ dimensional manifold and $N$ be an $n$-dimensional manifold *[with boundary*][1].  Suppose also that the topology on $N$ can be described by a metric. Thus, the set $C(M,N)$ can be endowed with the topology of [uniform convergence on compacta][2].  


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Intuitively is seems that every continuous function $f:M\rightarrow N$ should be able to be approximated by continuous functions of the form $g:M\rightarrow int(N)$; where $N=int(N)\cup \partial N$, $\partial N$ denotes the boundary of $N$ and $int(N)$ the $n$-dimensional manifold defined by removing $N's$ boundary points but is this formally true?  ie: is:

$$
\overline{C(M,int(N)} = C(M,N)?
$$


  [1]: https://en.wikipedia.org/wiki/Manifold#Manifold_with_boundary
  [2]: https://en.wikipedia.org/wiki/Compact_convergence