I have been studying differential topology from Hirsch, and sometimes in proofs he takes two points $x,y\in M$ a path between them and then just says that we can assume that this is transversal to a certain submanifold that we are interested in. Now I have tried to prove this myself but I don't see why this is true.
One attempt well let's take a path $\gamma $ between them such that $\gamma(0)=x$ and $\gamma(1)=y$, then using the fact that we have that transversal maps are dense we can approximate this map by transversal maps $h_n:[0,1]\rightarrow M$, but here I don't think I have any control over $h_n(0)$ and $h_n(1)$ and so this could be not $x$ and $y$.
Second attempt, we show that $\{\gamma \in C^r([0,1],M) : \gamma(0)=x, \gamma(1)=y\}$ is open in the strong topology, however this doesn't seem to be very true to me , since when we consider neighborhoods we lose control over the initial and final point again.
Another idea would be to consider the path an embedding which is possible, and then use the fact that $C_S^r([0,1],\{0,1\},\gamma([0,1]),\{x,y\})$ is dense, but here we would need the fact that the manifold that we want the map to be transverse too to be closed.
So I am out of ideas , and would appreciate some help with this. Thanks in advance.