Toronto Math Forum
MAT3342020S => MAT334Lectures & Home Assignments => Chapter 1 => Topic started by: Yan Zhou on February 02, 2020, 03:06:29 PM

23. Show that $F(z) = e^{z}$ maps the strip $S = \{ x+iy: \infty < x < \infty, \frac{\pi}{2} < y < \frac{\pi}{2}\} $ onto the region $ D = \{w = s+it: s \geqslant 0, w \neq 0\}$ and that $F$ is onetoone on $S$. Furthermore, show that $F$ maps the boundary of $S$ onto all the boundary of $D$ except $\{w = 0\}$. Explain what happens to each of the horizontal lines $\{Imz = \frac{\pi}{2}\}$ and $\{Imz = \frac{\pi}{2}\}$
To prove onto, I want to show, $\forall w \in D, \exists z \in S$, such that $F(z) = e^{z} = e^{x + iy} = w = s +it$.
So I need to find $x,y$ such that $s = e^{x}cosy, t = e^{x}siny$. I got answear $x = \frac{ln(s^{2} + t^{2})}{2}, y = arcos\frac{s}{\sqrt{s^{2} + t^{2}}}$But I don't know if they are correct. Can anyone help with this question and the following questions as well?