Problems to Section 5.3

$\renewcommand{\Re}{\operatorname{Re}}$ $\renewcommand{\Im}{\operatorname{Im}}$ $\newcommand{\erf}{\operatorname{erf}}$ $\newcommand{\dag}{\dagger}$ $\newcommand{\const}{\mathrm{const}}$ $\newcommand{\arcsinh}{\operatorname{arcsinh}}$

### Problems to Section 5.3

Problem 1.

1. Consider Dirichlet problem \begin{align} &u_{xx}+u_{yy}=0,\qquad -\infty<x<\infty, y>0, \\ &u|_{y=0}=f(x). \end{align} Make Fourier transform by $x$, solve problem for ODE for $\hat{u}(k,y)$ which you get as a result and write $u(x,y)$ as a Fourier integral.

2. Consider Neumann problem \begin{align} &u_{xx}+u_{yy}=0,\qquad -\infty<x<\infty, y>0, \\ &u_y|_{y=0}=f(x). \end{align} Make Fourier transform by $x$, solve problem for ODE for $\hat{u}(k,y)$ which you get as a result and write $u(x,y)$ as a Fourier integral. What condition must satisfy $f$?

Problem 2.

1. Consider Dirichlet problem \begin{align} &u_{xx}+u_{yy}=0,\qquad -\infty<x<\infty, 0<y<1, \\ &u|_{y=0}=f(x),\quad u|_{y=1}=g(x). \end{align} Make Fourier transform by $x$, solve problem for ODE for $\hat{u}(k,y)$ which you get as a result and write $u(x,y)$ as a Fourier integral.

2. Consider Dirichlet-Neumann problem \begin{align} &u_{xx}+u_{yy}=0,\qquad -\infty<x<\infty, 0<y<1, \\ &u|_{y=0}=f(x), \quad u_y|_{y=1}=g(x). \end{align} Make Fourier transform by $x$, solve problem for ODE for $\hat{u}(k,y)$ which you get as a result and write $u(x,y)$ as a Fourier integral.

3. Consider Neumann problem \begin{align} &u_{xx}+u_{yy}=0,\qquad -\infty<x<\infty, 0<y<1, \\ &u_y|_{y=0}=f(x), \quad u_y|_{y=1}=g(x). \end{align} Make Fourier transform by $x$, solve problem for ODE for $\hat{u}(k,y)$ which you get as a result and write $u(x,y)$ as a Fourier integral. What condition must satisfy $f,g$?

Problem 3.

Consider Robin problem \begin{align} &u_{xx}+u_{yy}=0,\qquad -\infty<x<\infty, y>0, \\ &(u_y+\alpha u)|_{y=0}=f(x). \end{align} Make Fourier transform by $x$, solve problem for ODE for $\hat{u}(k,y)$ which you get as a result and write $u(x,y)$ as a Fourier integral. What condition (if any) must satisfy $f$?

Hint. Consider separately $\alpha>0$ and $\alpha<0$.

Problem 4.

1. Consider problem \begin{align} &\Delta^2u=0,\qquad -\infty<x<\infty, y>0, \\ &u|_{y=0}=f(x),\quad &u_y|_{y=0}=g(x). \end{align} Make Fourier transform by $x$, solve problem for ODE for $\hat{u}(k,y)$ which you get as a result and write $u(x,y)$ as a Fourier integral.

2. Consider problem \begin{align} &\Delta^2u=0,\qquad -\infty<x<\infty, y>0, \\ &u_{yy}|_{y=0}=f(x),\quad &\Delta u_{y}|_{y=0}=g(x). \end{align} Make Fourier transform by $x$, solve problem for ODE for $\hat{u}(k,y)$ which you get as a result and write $u(x,y)$ as a Fourier integral. What condition must satisfy $f,g$?