(a) Explanation Given data: The step responses of a series R L C circuit are, v C = 40 − 10 e − 2000 t − 10 e − 4000 t V for t > 0 (1) i L ( t ) = 3 e − 2000 t + 6 e − 4000 t mA for t > 0 (2) Formula used: Write an expression to find the current through capacitor. i C = C d v C d t (3) Here, C is the value of capacitance, and d v C d t is the rate of change of voltage with respect to time. Write an expression to calculate the voltage response for a step input series R L C circuit when the roots of characteristic equations are real and negative. v ( t ) = V s + A 1 e s 1 t + A 2 e s 2 t (4) For the series R L C circuit, the current through resistor, inductor and capacitor are same. i R = i L = i C (5) Calculation: Differentiate the equation (1) with respect to time t . d v C ( t ) d t = 0 − 10 e − 2000 t ( − 2000 ) − 10 e − 4000 t ( − 4000 ) V s d v C ( t ) d t = 20 , 000 e − 2000 t + 40 , 000 e − 4000 t V s (6) Rearrange equation (3) to find C . C = i C ( d v C d t ) (7) Substitute i L for i C in equation (7) to find C . C = i L ( d v C d t ) (8) Substitute 3 e − 2000 t + 6 e − 4000 t mA for i L ( t ) , and 20 , 000 e − 2000 t + 40 , 000 e − 4000 t V s for d v C ( t ) d t in equation (8) to find C (b) To determine Find the type of damping exhibited by the circuit.

6th Edition

ISBN: 9780078028229

Author: Charles K Alexander, Matthew Sadiku

Publisher: McGraw-Hill Education

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Series and Parallel Circuit

Circuits can be classified as parallel and series depending on the manner in which components are connected to one another and the electrical source. The resultant output of the circuit depends on the electrical component.

Question

Chapter 8, Problem 30P

(a)

To determine

Find the value of capacitance (C).

(b)

To determine

Find the type of damping exhibited by the circuit.

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Chapter 8, Problem 29P

Chapter 8, Problem 31P

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Find the value of capacitance ( C ) .

Solution Summary: The author explains how to calculate the voltage response for a series RLC circuit when the roots of characteristic equations are real and negative.

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Find the value of capacitance (C).

Find the type of damping exhibited by the circuit.

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Chapter 8 Solutions