2)Consider the circuit shown;0.2HRassuming sinusoidal steady state:1 +v(1)1Ω0.1Fe,(1)a) Find the Thevenin equivalentcircuit to the left of terminals 1-2v(t) R=102(express your answer as realvalued function of time)c) Replace R with a 502resistor. Propose a setup such that this resistor absorbs maximum amount of power from the circuit. (Anyb) Calculatee,(1) = 9 cos 10f i,(1)=2cos[101 – (x / 3)]design is accepted but the left part of terminals 1-2 cannot be changed)

Given data: es(t)=9cos10tis(t)=2cos10t-π/3 Solution: The frequency is, ω=2πf10=2πf f=1.59 Hz…

Consider the circuit shown; R assuming sinusoidal steady state: 0.2H 12 0.1F (1 + v(1) e,(1) a) Find the Thevenin equivalent circuit to the left of terminals 1-2 b) Calculate (express your answer as real valued function of time) v(t) R=102 e,(1) = 9 cos 10t i,(1)=2cos[101 – (a/3)] c) Replace R with a 502 resistor. Propose a setup such that this resistor absorbs maximum amount of power from the circuit. (Any design is accepted but the left part of terminals 1-2 cannot be changed)

Consider the circuit shown; R assuming sinusoidal steady state: 0.2H 12 0.1F (1 + v(1) e,(1) a) Find the Thevenin equivalent circuit to the left of terminals 1-2 b) Calculate (express your answer as real valued function of time) v(t) R=102 e,(1) = 9 cos 10t i,(1)=2cos[101 – (a/3)] c) Replace R with a 502 resistor. Propose a setup such that this resistor absorbs maximum amount of power from the circuit. (Any design is accepted but the left part of terminals 1-2 cannot be changed)

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 1RQ: An AC circuit contains a 24 resistor, a 15.9-mH inductor, and a 13.3F capacitor connected in...

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