How to solve the dispersion relation in a symbolic expression?

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I have a symbolic expression along the lines:
H = @(f) a*k*f;
where a is a constant. f is the rotational frequency and k is the wave number, which are connected through the dispersion relation:
f^2 = g*k*tanh(k*S)
where g = 9.81 is the gravitational constant and S = 20 is the water depth. I would like to plot H(f), how can I evaluate the non-linear expression k=k(f) within the symbolic expression?
Many thanks.

Accepted Answer

Mischa Kim
Mischa Kim on 14 Apr 2014
Edited: Mischa Kim on 14 Apr 2014
Hello László, what about
g = 9.81; S = 20; a = 1;
H = @(k) a*k.*sqrt(g*k.*tanh(k*S));
k = -2:0.1:2;
plot(k,H(k))
Of course, you can first define H and f separately, if you need/want to.
  2 Comments
László Arany
László Arany on 14 Apr 2014
Edited: László Arany on 14 Apr 2014
That is a great workaround again, many thanks. In this actual case I can change the variable to k indeed.
But is it impossible to solve such an expression within a symbolic function? I mean if the expression was something like
H = @(f) f*k;
with the following relationship between the two variables:
f * tanh(f) = k * tanh(k)
then you wouldn't be able to bring the expression to the form f = f(k) or k = k(f) and then this solution wouldn't work. Is it possible to solve the non-linear expressions with e.g. fsolve or something else within the symbolic expression in such cases?
Mischa Kim
Mischa Kim on 14 Apr 2014
I don't think I follow. Are you trying to solve a nonlinear equation of the form H(f) = 0 using anonymous functions? If so, simply define H as shown above and then use fsolve(H,f0), where f0 is the starting guess.

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