Activity 2: Assume a series RLC circuit with the following component values: R = 200 £2 L=2.5 mH (with a 2-22 internal resistance in series) C = 1 nF (with a 20 k internal resistance in parallel) What is the resonance frequency of this circuit (express in 4 significant figures)? Does it differ significantly from the expected resonance value if the components were ideal (i.e., no internal resistances)? Show all analytical details. Finally, validate your findings using simulation.

Activity 2: Assume a series RLC circuit with the following component values: R = 200 £2 L=2.5 mH (with a 2-22 internal resistance in series) C = 1 nF (with a 20 k internal resistance in parallel) What is the resonance frequency of this circuit (express in 4 significant figures)? Does it differ significantly from the expected resonance value if the components were ideal (i.e., no internal resistances)? Show all analytical details. Finally, validate your findings using simulation.

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter24: Resistive-inductive-capacitive Parallel Circuits

Section: Chapter Questions

Problem 4RQ: A tank circuit contains a capacitor and an inductor that produce 30 of reactance at the resonant...

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