Example 8.2 Finding the Overdamped Natural Response of a Parallel RLC Circuit For the circuit in Fig. 8.6, v(0*) = 12 V, and i,(0*) = 30 mA. %3D 0.2 µF Vo 50 mH3, 200 N{ a) Find the initial current in each branch of the circuit. b) Find the initial value of dv/dt. Figure 8.6 A The circuit for Example 8.2. c) Find the expression for v(t). d) Sketch v(t) in the interval 0 < ts 250 ms. ||
Example 8.2 Finding the Overdamped Natural Response of a Parallel RLC Circuit For the circuit in Fig. 8.6, v(0*) = 12 V, and i,(0*) = 30 mA. %3D 0.2 µF Vo 50 mH3, 200 N{ a) Find the initial current in each branch of the circuit. b) Find the initial value of dv/dt. Figure 8.6 A The circuit for Example 8.2. c) Find the expression for v(t). d) Sketch v(t) in the interval 0 < ts 250 ms. ||
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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![Example 8.2 Finding the Overdamped Natural Response of a Parallel RLC Circuit
For the circuit in Fig. 8.6, v(0*) = 12 V, and
i,(0*) = 30 mA.
%3D
0.2 µF Vo 50 mH3, 200 N{
a) Find the initial current in each branch of the
circuit.
b) Find the initial value of dv/dt.
Figure 8.6 A The circuit for Example 8.2.
c) Find the expression for v(t).
d) Sketch v(t) in the interval 0 < ts 250 ms.
||](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F401b24f2-bc76-4167-ab49-caf78b0c40e2%2Ffafeeb29-ffa8-405e-bc54-23ed6084b2eb%2Fla83m5y_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Example 8.2 Finding the Overdamped Natural Response of a Parallel RLC Circuit
For the circuit in Fig. 8.6, v(0*) = 12 V, and
i,(0*) = 30 mA.
%3D
0.2 µF Vo 50 mH3, 200 N{
a) Find the initial current in each branch of the
circuit.
b) Find the initial value of dv/dt.
Figure 8.6 A The circuit for Example 8.2.
c) Find the expression for v(t).
d) Sketch v(t) in the interval 0 < ts 250 ms.
||
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