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A quatity is being solved by a self consistent integration

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pritha
pritha on 9 May 2024
Edited: Torsten on 12 May 2024
How to find Z from the below equation
How to find Z with the known parameters A(=2000) and a(=500).
here \mathcal{P} means the principal value integration. I was tried in the following way, but couldn't figure out how to solve this,
A = 2000; a = 500; tolerance = 10^-4; Z = 0;
for i = 1 : 10
result = integral(@(x) (x.^2.*((A^2+Z^2)./(A^2+((x.^2+a^2)))) .* (sqrt(x.^2+a^2).*(x.^2+a^2-Z^2)).^(-1)), 0,A, 'PrincipalValue', true);
new_Z = sqrt(result);
if abs(new_Z - Z) < tolerance
Z = new_Z;
break;
end
Z = new_Z;
end
disp(new_Z);
Thank you in advance!
  2 Comments
Torsten
Torsten on 9 May 2024
Edited: Torsten on 9 May 2024
Why is the Principal Value necessary to be taken ? In case a^2 - Z^2 <= 0 ?
pritha
pritha on 9 May 2024
Hi Torsten,
Z is completely unknown and there was no specified situation for that.

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Accepted Answer

Torsten
Torsten on 9 May 2024
Edited: Torsten on 9 May 2024
Ran in:
format long
syms x
A = 2000;
a = 500;
b = 1000;
Z = 0;
for i=1:20
f = x^4*((A^2+Z^2)/(A^2+4*(x^2+a^2)))^4 / (sqrt(x^2+a^2)*(x^2+a^2-Z^2));
I = double(int(f,x,0,A,'PrincipalValue',true));
Zpi = sqrt(b^2-I)
Z = real(Zpi)
end
Zpi =
9.822515593894991e+02
Z =
9.822515593894991e+02
Zpi =
9.926239912427430e+02 -1.331193739501012e-147i
Z =
9.926239912427430e+02
Zpi =
9.942989166123056e+02 -4.915924275823428e-153i
Z =
9.942989166123056e+02
Zpi =
9.945686435588058e+02 +9.829182155008009e-152i
Z =
9.945686435588058e+02
Zpi =
9.946120599497613e+02 -1.207757180393064e-148i
Z =
9.946120599497613e+02
Zpi =
9.946190479156575e+02 -2.457171010268977e-153i
Z =
9.946190479156575e+02
Zpi =
9.946201726310163e+02 +1.228584115851398e-152i
Z =
9.946201726310163e+02
Zpi =
9.946203536539656e+02 +9.828671137972504e-153i
Z =
9.946203536539656e+02
Zpi =
9.946203827896022e+02 -2.061221673054303e-146i
Z =
9.946203827896022e+02
Zpi =
9.946203874789816e+02 +1.179440496446327e-151i
Z =
9.946203874789816e+02
Zpi =
9.946203882337369e+02 -1.106609953389711e-137i
Z =
9.946203882337369e+02
Zpi =
9.946203883552148e+02 -3.542724730738004e-147i
Z =
9.946203883552148e+02
Zpi =
9.946203883747665e+02 +1.006455889394421e-149i
Z =
9.946203883747665e+02
Zpi =
9.946203883779135e+02
Z =
9.946203883779135e+02
Zpi =
9.946203883784200e+02 -1.610329423025159e-147i
Z =
9.946203883784200e+02
Zpi =
9.946203883785015e+02 +1.228583849353811e-152i
Z =
9.946203883785015e+02
Zpi =
9.946203883785146e+02 -1.030610830736004e-145i
Z =
9.946203883785146e+02
Zpi =
9.946203883785167e+02 -2.061221661472003e-146i
Z =
9.946203883785167e+02
Zpi =
9.946203883785171e+02 +4.221381962694661e-143i
Z =
9.946203883785171e+02
Zpi =
9.946203883785171e+02 +1.376013911276247e-151i
Z =
9.946203883785171e+02
f = x^4*((A^2+Z^2)/(A^2+4*(x^2+a^2)))^4 / (sqrt(x^2+a^2)*(x^2+a^2-Z^2));
double(Z^2 - b^2 + real(int(f,x,0,A,'PrincipalValue',true)))
ans =
-6.035923459074367e-11
  2 Comments
pritha
pritha on 12 May 2024
Hi Torsten,
Thank you. This works very well. However, when I run the code for 1500 values of 'a', it takes too much time, almost like 1hr. Could you please suggest me some wayout or any otherr process with which such kind of problem can be solved?
Torsten
Torsten on 12 May 2024
Edited: Torsten on 12 May 2024
If the values for A don't change much, you should use the result for Z of the call for A(i) as initial guess for the call with A(i+1).
Further, you could try to solve your equation directly without fixed-point iteration using the "vpasolve" function:
syms Z x
A = 2000;
a = 500;
b = 1000;
f = x^4*((A^2+Z^2)/(A^2+4*(x^2+a^2)))^4 / (sqrt(x^2+a^2)*(x^2+a^2-Z^2));
eqn = Z^2 - b^2 + real(int(f,x,0,A,'PrincipalValue',true)) == 0;
vpasolve(eqn,Z)

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