I =
Any assumptions on the parameters n_1, n_2, b or R that could help simplifying the result ?
Complex Integration in MATLAB with symbolic integration limits
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I'm having trouble with integrating this using MATLAB. When i try and run it as shown below, the answer that comes out i'm pretty sure is wrong. This is the first time i'm using matlab to help with integration so apologies in advance if i'm doing something very silly. Can anyone give me some pointers as to what i'm doing wrong?
syms y b n_1 n_2 R
b_y = (b-((b-(b/4))/(n_1+n_2))*y);
x = (y^2*b_y)/(1+(y/R));
I = int(x,-n_1,n_2)
5 Comments
Accepted Answer
Torsten
on 25 Jun 2024 at 17:46
Edited: Torsten
on 25 Jun 2024 at 18:06
Does this help ?
Note that no distiction is made about the R-value. But you should keep in mind that the answer is incorrect if -R is in the interval [-eta1 eta2].
syms y b n_1 n_2 R
b_y = (b-((b-(b/4))/(n_1+n_2))*y);
x = (y^2*b_y)/(1+(y/R));
I = int(x,y);
simplify(subs(I,y,n_2)-subs(I,y,-n_1))
3 Comments
Torsten
on 25 Jun 2024 at 23:05
Does this then mean that the solution you provided below would be valid?
Yes.
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