6. Series RLC circuit consists of a resistance R = 250, inductance L = 0.25 H and capacitance C = 29.76 µF connected to constant voltage V. The differential equation is, d²i dt² L- 1 di + R + i + i = 0, where i is current at time t. dt + i C di Find the expression for i, if at t = 0, i = 0 and = 34. dt
6. Series RLC circuit consists of a resistance R = 250, inductance L = 0.25 H and capacitance C = 29.76 µF connected to constant voltage V. The differential equation is, d²i dt² L- 1 di + R + i + i = 0, where i is current at time t. dt + i C di Find the expression for i, if at t = 0, i = 0 and = 34. dt
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Find the expression for i in the attached image

Transcribed Image Text:6. Series RLC circuit consists of a resistance R = 250, inductance
L = 0.25 H and capacitance C = 29.76 µF connected to constant
voltage V. The differential equation is,
L
d²i di 1
dt²
+ R +i = 0, where i is current at time t.
dt C
di
Find the expression for i, if at t = 0, i = 0 and = 34.
dt
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