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Resonance. External Force  External forces can be included in the Lagrangian. Arbitrary force F(q, t)Arbitrary force F(q, t) Small oscillations only.

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Presentation on theme: "Resonance. External Force  External forces can be included in the Lagrangian. Arbitrary force F(q, t)Arbitrary force F(q, t) Small oscillations only."— Presentation transcript:

1 Resonance

2 External Force  External forces can be included in the Lagrangian. Arbitrary force F(q, t)Arbitrary force F(q, t) Small oscillations only F(t)Small oscillations only F(t)  The oscillator Lagrangian gains an extra term from the time-dependent force. Corresponds to workCorresponds to work Derivative is powerDerivative is power

3 Damped and Driven  A sinusoidal drive can be represented by a complex force. Consider real partConsider real part Try a solutionTry a solution  The transient part damps out exponentially. A is complex determined by initial conditionsA is complex determined by initial conditions

4 Oscillator Energy  The energy is proportional to the steady state amplitude.  The energy peaks with frequency. This is resonance

5 Lorentzian  The resonant and driving frequencies are similar for large Q. Set both about equal to 1  This is a Lorentzian function. E  Linear oscillator 

6 Energy Width  One measure of the oscillator is the width of the Lorentzian peak. Full width at half maximum  Measuring the peak width gives Q. High Q is narrow resonance High Q is a slow decay of transients E  Linear oscillator 

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