Calculating RLC Circuit Damping Time and Energy Loss

AI Thread Summary
In a series RLC circuit, the discussion focuses on calculating the time it takes for the current amplitude and energy to decrease to 50.9% of their initial values under weak damping conditions. For current amplitude, the correct approach involves using the exponential decay function e^(at), where 'a' is defined as -R/L. The initial misunderstanding stemmed from incorrectly applying the sine function instead of focusing on the exponential decay. The correct formula yields t = (1/R) * ln(1/0.509) for the time to reach 50.9% amplitude. Clarification emphasizes the importance of distinguishing between the oscillation's maximum amplitude and the overall behavior of the circuit.
andrew410
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Electrical oscillations are initiated in a series circuit containing a capacitance C, inductance L, and resistance R.

a) If R << sqrt((4L)/C) (weak damping), how much time elapses before the amplitude of the current oscillation falls off to 50.9% of its initial value?

b) How long does it take the energy to decrease to 50.9% of its initial value?

For part A, since I = I(max) * sin(wt), I put I(max)*.509 = I(max) * sin(wt).
I(max) cancels out and you are left with .509 = sin(wt). I let w = 1/sqrt(LC). Next, I solved for t and came up with t = sqrt(LC)*arcsin(.509). It says the answer is wrong though. Any help would be great! thx! :)
 
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you were not even answering what the question asked...
for a weak damping oscillation, the amplitude is e^(at)sin(bt) ... whereas a and b are constant...
the question is asking you when will the maximun amplitude i.e. e^(at) decrease to 50.9%, not the whole thing...
 
so you do .509 = e^(at) and solve for t, where a = -Rt/L?
 

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