@BvU Fair enough :smile:. Here’s what I’ve deduced so far (for part a)
Assuming ##V’(x_1) \neq 0##, we need to show that ##t=lim_{h \rightarrow x_1} \int_{x_0}^{h} {\sqrt{\frac {m} {E_0 - V(y)}} dy} \in \mathbb{R}## since the upper bound is a vertical asymptote.
I *think* ##V’(x_1) \neq 0##...
Hi @BvU, sorry for the confusion. That’s not the problem I was referring to. I just included that for context. That’s actually problem 1 and it was pretty easy to solve. With regards to problem 2, I’m completely lost. Probably because the book is titled Quantum Theory for Mathematicians and I’m...