Variable in function as well as integral boundary

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Paul Heineman
Paul Heineman il 22 Ott 2022
Commentato: Paul Heineman il 22 Ott 2022
Ran in:
Hi,
I have an integral I want to compute and plot for different angles theta. 0-90 degrees.
For every angle I want to compute the integral of the function from 0 up to the angle theta.
theta = 1:90;
A = 0.4*10^-19;
R = 4215 * theta.^(-1.35)*10^-9;
D_0 = 0.3;
D_c = R.*(1-cosd(theta));
D = (D_0 + D_c)*10^-9;
b = 0.2*10^-6;
Fun = @(theta) (A ./ (6 .* pi .* (D_0 + R .* ( 1-cosd(theta))).^3)) .* b .* R;
F_vdW1 = integral(Fun, 0, theta);
Error using integral
Limits of integration must be double or single scalars.
Can someone please help with what I am doing wrong?
Thanks

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Torsten
Torsten il 22 Ott 2022
Modificato: Torsten il 22 Ott 2022
Ran in:
Is it this what you want ?
If not, please clarify how the theta in the integrand and in the upper bound of the integral should be interpreted. Mathematically, your notation to use the same name for both is wrong.
theta = 1:90;
A = 0.4*10^-19;
R = 4215 * theta.^(-1.35)*10^-9;
D_0 = 0.3;
D_c = R.*(1-cosd(theta));
D = (D_0 + D_c)*10^-9;
b = 0.2*10^-6;
Fun = (A ./ (6 .* pi .* (D_0 + R .* ( 1-cosd(theta))).^3)) .* b .* R;
F_vdW1 = cumtrapz(theta,Fun);
F_vdW1 = 1×90
1.0e-30 * 0 0.0461 0.0666 0.0793 0.0881 0.0948 0.1002 0.1046 0.1083 0.1115 0.1143 0.1167 0.1189 0.1209 0.1227 0.1243 0.1258 0.1272 0.1285 0.1297 0.1308 0.1319 0.1329 0.1338 0.1347 0.1355 0.1363 0.1371 0.1378 0.1385
plot(theta,F_vdW1)
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Torsten
Torsten il 22 Ott 2022
Modificato: Torsten il 22 Ott 2022
Ran in:
Are you sure that "phi" should enter the equation for R in degrees and not in radians ?
And according to your graphics, only the 6 and not the complete expression 6*pi*[D0+R*(1-cos(phi))]^3 would appear in the denominator of the integrand.
A = 0.4*10^-19;
R = @(phi) 4215 * phi.^(-1.35)*10^-9;
D_0 = 0.3;
D_c = @(phi) R(phi).*(1-cosd(phi));
D = @(phi) (D_0 + D_c(phi))*10^-9;
b = 0.2*10^-6;
Fun = @(phi)(A ./ (6 .* pi .* (D_0 + R(phi) .* ( 1-cosd(phi))).^3)) .* b .* R(phi);
theta = 1:360;
F_vdW1 = arrayfun(@(theta)integral(Fun,0,theta),theta)
F_vdW1 = 1×360
1.0e-28 * 0.6801 0.5336 0.4630 0.4187 0.3872 0.3633 0.3442 0.3285 0.3152 0.3038 0.2938 0.2850 0.2771 0.2700 0.2636 0.2577 0.2523 0.2473 0.2427 0.2384 0.2343 0.2305 0.2270 0.2236 0.2204 0.2174 0.2146 0.2119 0.2093 0.2068
plot(theta,F_vdW1)

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Bruno Luong
Bruno Luong il 22 Ott 2022
Modificato: Bruno Luong il 22 Ott 2022
Ran in:
I have no idea if the code correspondons to the formula; I just modify your code to make it work on array
theta = 1:90;
A = 0.4*10^-19;
R = @(theta) 4215 * theta.^(-1.35)*10^-9;
D_0 = 0.3;
D_c = @(theta) R.*(1-cosd(theta));
b = 0.2*10^-6;
Fun = @(theta) (A ./ (6 .* pi .* (D_0 + R(theta) .* ( 1-cosd(theta))).^3)) .* b .* R(theta);
F_vdW1 = arrayfun(@(onetheta) integral(Fun, 0, onetheta), theta)
F_vdW1 = 1×90
1.0e-28 * 0.6801 0.5336 0.4630 0.4187 0.3872 0.3633 0.3442 0.3285 0.3152 0.3038 0.2938 0.2850 0.2771 0.2700 0.2636 0.2577 0.2523 0.2473 0.2427 0.2384 0.2343 0.2305 0.2270 0.2236 0.2204 0.2174 0.2146 0.2119 0.2093 0.2068

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