- #1
tomboy67
- 3
- 0
Hey,
I am trying to find a GF for the function:
y''+\frac{1}{24}y=f(x)
The function is bounded by:
y(0)=y(\pi)=0
I have followed a math textbook that goes through the exact process for the function:
y''+k^2y=f(x)
and have found a nice looking general solution:
G(x,x')=-\frac{sin(x/4)sin(\frac{1}{4}[\pi-x'])}{\frac{1}{4}sin(\pi/4)}
for x<x'
and
G(x,x')=-\frac{sin(x'/4)sin(\frac{1}{4}[\pi-x])}{\frac{1}{4}sin(\pi/4)}
for x>x'
Now, here is my problem:
I need to find y(x) for f(x)=sin(x)
This sounds easy right, just use the Green function, multiply by f(x) and integrate over the boundary 0 to pi.
The problem is that the integral only converges for k^2 is some integer.
For non integer k^2 it seems to diverge...not good as I have k^2=1/24
I was just wandering if anyone has any suggestions?
Thanks!
I am trying to find a GF for the function:
y''+\frac{1}{24}y=f(x)
The function is bounded by:
y(0)=y(\pi)=0
I have followed a math textbook that goes through the exact process for the function:
y''+k^2y=f(x)
and have found a nice looking general solution:
G(x,x')=-\frac{sin(x/4)sin(\frac{1}{4}[\pi-x'])}{\frac{1}{4}sin(\pi/4)}
for x<x'
and
G(x,x')=-\frac{sin(x'/4)sin(\frac{1}{4}[\pi-x])}{\frac{1}{4}sin(\pi/4)}
for x>x'
Now, here is my problem:
I need to find y(x) for f(x)=sin(x)
This sounds easy right, just use the Green function, multiply by f(x) and integrate over the boundary 0 to pi.
The problem is that the integral only converges for k^2 is some integer.
For non integer k^2 it seems to diverge...not good as I have k^2=1/24
I was just wandering if anyone has any suggestions?
Thanks!
