Prove the lorentzian function describes resonant behavior

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Homework Statement



Resonances occur in many physical systems, and are often observed by measuring the frequency response of the system to an applied driving force. use the example of a damped harmonic oscillator to show how the lorentzian function serves as a good description of resonant behavior

Homework Equations



[itex]P_{L}( x; \mu ,\Gamma)[/itex] = [itex]\frac{\Gamma/2}{\pi(x-\mu)^{2} +( \Gamma/2)^{2} }[/itex]

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The Attempt at a Solution



this is for an honours lab, and the "lecture" part isn't taught well at all. So i kind of need help to start this problem
 
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anyone got an idea? and something happened to my initial equations...
 
You want to add a forcing term F(t) that drives the oscillator, so your equation becomes
[tex]m\ddot{x} = F(t) -kx -c\dot{x}[/tex]Use something like F(t)=A sin ωt and find the particular solution to the differential equation.