Trouble solving for extreme values of a differential equation.

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Patrick Myers
Patrick Myers 2021년 3월 24일
댓글: Patrick Myers 2021년 3월 29일
Hello,
I'm trying to solve the most probable energy for this probability density function, P(E) = A.*sinh(sqrt(2.*E)).*exp(-E). I solved for A in my code but when I take the derivative and try to solve it at zero I get a large, relative to the expectation, negative number. For the situation the function is from the energy cannot be negative. I'm unsure what I'm doing wrong could you help me? Here's my code:
%% Problem 3
% Part A
syms E
P = @(E) sinh(sqrt(2.*E)).*exp(-E);
A = double(1./int(P(E), 0, Inf));
disp(A);
% Part B
dPdE = @(E) diff(A.*P(E));
solution = solve(dPdE(E));
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darova
darova 2021년 3월 25일
DO you have original equations?
Patrick Myers
Patrick Myers 2021년 3월 25일
편집: Patrick Myers 2021년 3월 25일
P(E) = A.*sinh(sqrt(2.*E)).*exp(-E)
This is the density function
I solved for A using normalization which gives me 0.484 so...
P(E) = 0.484.*sinh(sqrt(2.*E)).*exp(-E)
If you take the derivative, set it to zero, and solve for the E the energy should be the most probable energy. The one thing I see I'm missing is dPdE = @(E) diff(A.*P(E)) == 0; but I ran this and still got -177.

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답변 (1개)

darova
darova 2021년 3월 25일
You are trying to solve your equation symbolically (to get analytical expression). I think it's impossible
Try fsolve or vpasolve
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Patrick Myers
Patrick Myers 2021년 3월 29일
That answer didn't work unfortunatly, I still got the same aswer, but I ended up just plotting the derivative and picking off the zero I needed. Thank you for your effort.

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