How to solve a complicated equation?

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Cola
Cola il 7 Lug 2021
Modificato: David Goodmanson il 16 Lug 2021
There is a Equation G. How to obtain the values of α and β when G=0?
G=-(-Omega^3*tau + (alpha + beta)*Omega)^2 - (Omega^2 - alpha*f)^2.
The answer:
alpha = Omega^2*cos(Omega*tau)/f;
beta = Omega*(f*sin(Omega*tau) - Omega*cos(Omega*tau))/f.
CAN anyone help me with this issue??? Thanks!!!
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Cola
Cola il 16 Lug 2021
@Star Strider I obtain the values, and thank you very much for the help!!!
syms Omega tau alpha beta f
[ A, B ] = solve( [ -Omega^3*tau + (alpha + beta)*Omega == 0, Omega^2 - alpha*f == 0 ], [ alpha, beta ] )

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David Goodmanson
David Goodmanson il 16 Lug 2021
Modificato: David Goodmanson il 16 Lug 2021
Hi Cola,
Since there is one equation and two unknowns, it must be possible to define, say, beta in terms of alpha, where alpha can be anything. For G = 0 we have
(-Om^3*t + (a+b)*Om)^2 = -(Om^2 - a*f)^2
so
-Om^3*t + (a+b)*Om = +-*i*(Om^2 - a*f)
where there are obvious notational substitutions for Omega, tau, alpha, beta, and the +- choice gives two different solutions. Solving for b,
b = (1/Om)*( Om^3*t -a*Om +-i*(Om^2 - a*f) )
where 'a' can be anything. Solving instead for a (this does not give a different family of solutions, rather the same ones expressed differently) gives
a = (Om^3*t +-i*Om^2 -b*Om)/(Om +-i*f)
Here the sign in the denominator (+ or -) has to match the sign in the denominator, and b can be anything. The choice b = 0 gives the solutions from Star Strider.
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Cola
Cola il 16 Lug 2021
I really thank you and sincerely wish you all the best.

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