How can i solve initial value ordinary differential equation using matlab ??

3 views (last 30 days)
Surendra Ratnu
Surendra Ratnu on 21 Aug 2023
Commented: Surendra Ratnu on 21 Aug 2023
I want to solve four differtial equation and these are shown in picture. Here u,s,p,r are dependent variable and t is the independent variable. W and a are the constant (values are 154 and 44.5 degree). t is the independent variable and varies from 0 to 180 degree. initial condition are u0 = 0.10, so = 0.2025, p0 = 1.4706, r0 = 2.2449.
  5 Comments
Show 3 older comments
Surendra Ratnu
Surendra Ratnu on 21 Aug 2023
They are not cross product. It is simply multiplication and d/dt denote the differtiation with respect to t. I attached a picture for the equation. here is u s are the two differtent variable.
Bruno Luong
Bruno Luong on 21 Aug 2023
Some obvious mixe and match unit : sin and cos take argument in radian not in degree

Sign in to comment.

Sign in to answer this question.

Accepted Answer

Bruno Luong
Bruno Luong on 21 Aug 2023
Edited: Bruno Luong on 21 Aug 2023
Ran in:
I change integration variables to v=u*s and w=u^2*s;
This should work (you need to sort out the discrepency of unit, speccially for t)
W = 154;
a = deg2rad(44.5);
u0 = 0.10;
s0 = 0.2025;
p0 = 1.4706;
r0 = 2.2449;
v0 = u0*s0;
w0 = u0^2*s0;
y0 = [v0;w0;p0;r0];
sol = ode45(@(t,y) odefun(t,y,a,W),[0 pi],y0);
t = sol.x;
y = sol.y;
v = y(1,:);
w = y(2,:);
p = y(3,:);
r = y(4,:);
u = w./v;
s = v./u;
tdeg = rad2deg(t)
tdeg = 1×13
0 7.9475 21.1057 35.2541 53.2541 71.2541 89.2541 107.2541 125.2541 143.2541 158.1571 171.0410 180.0000
figure
subplot(2,2,1); plot(tdeg, u); xlabel('tdeg'); ylabel('u')
subplot(2,2,2); plot(tdeg, s); xlabel('tdeg'); ylabel('s')
subplot(2,2,3); plot(tdeg, p); xlabel('tdeg'); ylabel('p')
subplot(2,2,4); plot(tdeg, r); xlabel('tdeg'); ylabel('r')
function dydt = odefun(t, y, a, W)
%v = y(1); % u*s
w = y(2); % u^2*s
p = y(3);
r = y(4);
sina = sin(a);
cosacost = cos(a).*cos(t);
c = sina^3./(4*(1+cosacost).^2);
dvdt = c;
dwdt = c.*cos(p);
dpdt = (2*r/W - c*sin(p).^2) ./ (w.*sin(p)) - 1;
drdt = t ./ tan(p);
dydt = [dvdt; dwdt; dpdt; drdt];
end

More Answers (0)

Categories

Find more on Ordinary Differential Equations in Help Center and File Exchange

Tags

Products


Release

R2023a

Community Treasure Hunt

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

Start Hunting!