Solve system for Roots of Bessel Function

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mery
mery el 9 de Ag. de 2022
Editada: Torsten el 10 de Ag. de 2022
I have this Bessel function that I am trying to solve for the roots an and bn.They are dependent upon T ,K, B, which I was able to figure out, but I need to be able to use this in my infinite summation model, so being able to solve for more would be useful.
syms a_n b_n T K B
I tried to use vpasolve and fzero function with (T=10,B=1,K=0.5) but didnt work.
What function should i use for solving this system?
Any help would be greatly appreaciated.
Thank you
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mery
mery el 9 de Ag. de 2022
Hi, I need the roos a_n and b_n to plot this sum for n=1000
Torsten
Torsten el 9 de Ag. de 2022
In the infinite sum, only the an appear.
Could you give a literature link to this sum representation ?

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Torsten
Torsten el 10 de Ag. de 2022
Editada: Torsten el 10 de Ag. de 2022
Ran in:
This is a very empirical code for your problem. Success is not guaranteed in all cases.
T = 10;
B = 1;
K = 0.5;
fun = @(a,b)[(besselj(0,K*a)+b*bessely(0,K*a))*(1-T*a)+B*a*(besselj(1,K*a)+b*bessely(1,K*a));...
(besselj(0,a)+b*bessely(0,a))*(1-T*a)-B*a*(besselj(1,a)+b*bessely(1,a))];
options = optimset('TolFun',1e-12,'TolX',1e-12,'Display','none');
alow = 0.01;
ahigh = 60.01;
blow = 0.01;
bhigh = 60.01;
da = 0.5;
db = 0.5;
a0 = alow:da:ahigh;
b0 = blow:db:bhigh;
icount = 0;
for i=1:numel(a0)
for j=1:numel(b0)
[x,r] = fsolve(@(x)fun(x(1),x(2)),[a0(i) b0(j)],options);
if norm(r) < 1e-8
icount = icount + 1;
a(icount) = x(1);
b(icount) = x(2);
res(icount) = norm(r);
end
end
end
AB = [a(:),b(:),res(:)];
AB = sortrows(AB);
icount = 1;
M(1,:) = AB(1,:);
for i = 1:size(AB,1)-1
if AB(i+1,1) - AB(i,1) > 0.1
icount = icount + 1;
M(icount,:) = AB(i+1,:);
end
end
M
M = 12×3
0.0998 0.0039 0.0000 0.5303 1.6781 0.0000 6.6570 1.7032 0.0000 12.9507 1.7844 0.0000 19.2383 1.8170 0.0000 25.5238 1.8344 0.0000 31.8085 1.8452 0.0000 38.0926 1.8526 0.0000 44.3765 1.8579 0.0000 50.6603 1.8620 0.0000

Más respuestas (1)

Torsten
Torsten el 10 de Ag. de 2022
Editada: Torsten el 10 de Ag. de 2022
Ran in:
I don't know how the (an,bn) for your problem are enumerated, but maybe it's a start.
At least I can assure you that you will not be able to symbolically solve for an,bn the way you tried.
The equations are far too compliciated to allow analytical solutions.
T = 10;
B = 1;
K = 0.5;
fun = @(a,b)[(besselj(0,K*a)+b*bessely(0,K*a))*(1-T*a)+B*a*(besselj(1,K*a)+b*bessely(1,K*a));...
(besselj(0,a)+b*bessely(0,a))*(1-T*a)-B*a*(besselj(1,a)+b*bessely(1,a))];
options = optimset('TolFun',1e-12,'TolX',1e-12)
options = struct with fields:
Display: [] MaxFunEvals: [] MaxIter: [] TolFun: 1.0000e-12 TolX: 1.0000e-12 FunValCheck: [] OutputFcn: [] PlotFcns: [] ActiveConstrTol: [] Algorithm: [] AlwaysHonorConstraints: [] DerivativeCheck: [] Diagnostics: [] DiffMaxChange: [] DiffMinChange: [] FinDiffRelStep: [] FinDiffType: [] GoalsExactAchieve: [] GradConstr: [] GradObj: [] HessFcn: [] Hessian: [] HessMult: [] HessPattern: [] HessUpdate: [] InitBarrierParam: [] InitTrustRegionRadius: [] Jacobian: [] JacobMult: [] JacobPattern: [] LargeScale: [] MaxNodes: [] MaxPCGIter: [] MaxProjCGIter: [] MaxSQPIter: [] MaxTime: [] MeritFunction: [] MinAbsMax: [] NoStopIfFlatInfeas: [] ObjectiveLimit: [] PhaseOneTotalScaling: [] Preconditioner: [] PrecondBandWidth: [] RelLineSrchBnd: [] RelLineSrchBndDuration: [] ScaleProblem: [] SubproblemAlgorithm: [] TolCon: [] TolConSQP: [] TolGradCon: [] TolPCG: [] TolProjCG: [] TolProjCGAbs: [] TypicalX: [] UseParallel: []
x = fsolve(@(x)fun(x(1),x(2)),[1 1],options);
Equation solved. fsolve completed because the vector of function values is near zero as measured by the value of the function tolerance, and the problem appears regular as measured by the gradient.
a = x(1)
a = 0.5303
b = x(2)
b = 1.6781
fun(a,b)
ans = 2×1
1.0e-15 * -0.8882 -0.4441
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Torsten
Torsten el 10 de Ag. de 2022
As I said: Copy the roots from MATHEMATICA. This is the easiest way.
mery
mery el 10 de Ag. de 2022
Editada: mery el 10 de Ag. de 2022
@Torsten thank you very much

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