hello,
I am having a hard time following this isotopy put forth by Milnor in On the Total Curvature of Knots
For each $c$ and $p$ in $\mathbb{R}^{n-1}$ such that $\|c-p\| > < r$, there is an isotopy, $f_u^{c\; > p} (\gamma), 0 \le u \le 1$, of $\mathbb{R}^{n-1}$ onto itself which transforms $c$ into $p$ and leaves fixed all points of $\mathbb{R}^{n-1}$ outside the $(n-2)$-sphere of radius $r$
This concept makes sense, but the paper continues saying:
For example,
$f_u^{c\; p}(\gamma) = \gamma - u ( 1 - \frac{\|\gamma - c\|}{r} )(p -c)$ for $\|\gamma - c\| \le r$
$f_u^{c\; p}(\gamma) = \gamma$ for $\|\gamma - c\| \ge r$
If you plug the value $\gamma = c$ into this where $u = 1$, you get
$c - (1)(1)(p-c) = 2c - p$
I thought the idea was to transform c into p?
It seems weird that you have the vector $p-c$ with some appropriate magnitude being subtracted instead of added.
Any thoughts on this would be really helpful,
Thanks
