I'm using the trapz function on two sets of data and there's something wrong.
Here is a view of the data:
So you can understand my problem; y-axis is pressure coefficient Cp, x-axis is angle (49 values in total, 0:7.5:360), data with the green square matrix is the data obtained from the experiment, the red curve is basically Cp*sin(angle) while the pink one is Cp*cos(angle)
Using trapz on the red one works perfectly, it gives 7.5, and if I reverse the input arguments for trapz I get the negative of this number! The problem is with the pink graph, using trapz gives a huge number (it's wrong, I shouldn't be getting this) and when switching the input arguments I get another huge number, not the negative of the first number, that is weird, I don't know what is wrong, so I used quad (needs a function) to test the results of trapz
for i = 1:48 y = @(x) (Cp(i+1) - Cp(i)) / ( theta_rad(i+1) - theta_rad(i) ) * x .* sin(x); clll(i) = -0.5* quad(y,theta_rad(i), theta_rad(i+1)); end clll = sum(clll); for j = 1:48 f = @(t) (Cp(j+1) - Cp(j)) / ( theta_rad(j+1) - theta_rad(j) ) * t .* cos(t); cdddp(i) = 0.5* quad(f,theta_rad(j), theta_rad(j+1)); end cdddp = sum(cdddp);
For the first loop (quad of the red curve) I got a very close answer, the error was probably due to the linear interpolation I used between points and for the second loop I got a sensible answer, a very small number which is in the range of the answer I'm looking for. I also tried trapezoidal rule in Excel and I got this huge number again, so it's something I'm doing wrong.
I just found a mistake, I was using the trapezoidal using angles in degrees rather than radians! Now I'm getting much smaller numbers but I think there's another mistake because the integral using quad gives a more sensible answer.
Here's the code I'm using for trapz
Cdp = 0.5*trapz( theta*pi/180, Cp.*cosd(theta) ); %pressure drag coefficient Cl = -0.5*trapz(theta*pi/180, Cp.*sind(theta) ); %lift coefficient