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+1 R ww VR IR + Vs VL L V To IL Consider the RLC circuit shown. The sinusoidal voltage source has a magnitude of V. Answer the following questions, showing your solutions where applicable. a. Find an expression for the complex gain, |4| # b. Derive an expression for the cutoff frequency/ies of the circuit. (Hint: The cutoff frequency, w, is the frequency at which the output voltage is of the input voltage.) C

+1 R ww VR IR + Vs VL L V To IL Consider the RLC circuit shown. The sinusoidal voltage source has a magnitude of V. Answer the following questions, showing your solutions where applicable. a. Find an expression for the complex gain, |4| # b. Derive an expression for the cutoff frequency/ies of the circuit. (Hint: The cutoff frequency, w, is the frequency at which the output voltage is of the input voltage.) C

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Vs + +1 R m VR + VL L To IL Consider the RLC circuit shown. The sinusoidal voltage source has a magnitude of V. Answer the following questions, showing your solutions where applicable. a. Find an expression for the complex gain, A = V b. Derive an expression for the cutoff frequency/ies of the circuit. (Hint: The cutoff frequency, w, is the frequency at which the output voltage is of the input voltage.) √2 IR Vo с
Transcribed Image Text:Vs + +1 R m VR + VL L To IL Consider the RLC circuit shown. The sinusoidal voltage source has a magnitude of V. Answer the following questions, showing your solutions where applicable. a. Find an expression for the complex gain, A = V b. Derive an expression for the cutoff frequency/ies of the circuit. (Hint: The cutoff frequency, w, is the frequency at which the output voltage is of the input voltage.) √2 IR Vo с
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