solving bvp differential equation

조회 수: 1 (최근 30일)
Moj
Moj 2013년 7월 13일
I want to solve bvp differential equation. but after a lot of effort I couldn't . my equation is:
(k1*cos(teta)^2+k3*sin(teta)^2)*(d^2(teta)/dz^2)+0.5*(k3-k1)*2*cos(teta)*sin(teta)*(d(teta)/dz)^2+(mu)^-1*kapa*b^2*sin(teta)*cos(teta)=0
NOTE:
1. k1, k3, kapa, mu are constants.
2. teta is a function of z.
3. my boundary condition is : teta(z=0)=0 , teta(z=d)=0 , teta'(z=d/2)=0
  • I don't know to write third bondary condition ( my interval is [0,d]) *I try to solve it with the example of 3 in BVP_tutorial.pdf but I can't ( faced with a lot error)
  • My code is:*
function mat4bvp
w = 2;
L=5*10^-6; % is d
solinit = bvpinit(linspace(0,L,10),@mat4init,w);
sol = bvp4c(@mat4ode,@mat4bc,solinit);
fprintf('The fourth eigenvalue is approximately %7.3f.\n',...
sol.parameters)
xint = linspace(0,L);
Sxint = deval(sol,xint);
plot(xint,Sxint(1,:))
axis([0 L 0 1.6])
title('Eigenfunction of Mathieu''s equation.')
xlabel('x')
ylabel('solution y')
% -----------------------------------------------------------------------------
% w is magnetic field (B)
function dydx = mat4ode(x,y,w)
mu = 4*pi*10^-7;
kapa=9.5*10^-7;
k11=5.3*10^-12;
k33=7.3*10^-12;
dydx = [ y(2)
-0.5*(k33-k11)*2*cos(y(x))*sin(y(x))*y(2)-((mu)^-1*kapa*w^2*sin(y(x))*cos(y(x)))];
% ------------------------------------------------------------------------------
function res = mat4bc(ya,yb,w)
res = [ ya(1)
yb(1)];
% ------------------------------------------------------------
function yinit = mat4init(x)
L=5*10^-6;
yinit = [cos((pi/L)*x)];

이 질문에 답변하려면 로그인하십시오.

답변 (0개)

카테고리

Help CenterFile Exchange에서 Numerical Integration and Differential Equations에 대해 자세히 알아보기

태그

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by