Pb. 3 For the Series RLC circuit below, the 4 u(t) step source mimic a switch: before t=0 the current is zero and after t=0 the current is 4A (u(t) is known mathematically as the step function). This exercise will help practice finding quantiles related to initial conditions of RLC circuits 4u(1) A vr iR + iL 3H VR www 30 ic + FC SA (a) Find the voltage and a current for each element R, C and L at both t= 0 and t-0¹. (b) Find values at t=0 for the first derivatives of the three voltage and three current variables (c) Repeat (a) and (b) for a Parallel RLC (make the 30 Ohm Resistor in parallel with L and C).

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Pb. 3 For the Series RLC circuit below, the 4 u(t) step source mimic a Switch: before t-0 the
current is zero and after t-0 the current is 4A (u(t) is known mathematically as the step function).
This exercise will help practice finding quantiles related to initial conditions of RLC circuits
iR
+ IR -
30 Ω
4u(t) A
3 H
5 A
(a) Find the voltage and a current for each element R, C and L at both t 0 and t-0*.
(b) Find values at t 0 for the first derivatives of the three voltage and three current variables
(c) Repeat (a) and (b) for a Parallel RLC (make the 30 Ohm Resistor in parallel with L and C).
Transcribed Image Text:Pb. 3 For the Series RLC circuit below, the 4 u(t) step source mimic a Switch: before t-0 the current is zero and after t-0 the current is 4A (u(t) is known mathematically as the step function). This exercise will help practice finding quantiles related to initial conditions of RLC circuits iR + IR - 30 Ω 4u(t) A 3 H 5 A (a) Find the voltage and a current for each element R, C and L at both t 0 and t-0*. (b) Find values at t 0 for the first derivatives of the three voltage and three current variables (c) Repeat (a) and (b) for a Parallel RLC (make the 30 Ohm Resistor in parallel with L and C).
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