Derive the linear, constant-coefficient differential equation that describes the output of this circuit (the voltage across the capacitor = y(t)) in terms of the input voltage x(t) (shown with an AC power supply here) and the circuit element values R, L, C. Assume that there is no stored energy in this circuit prior to the application of a new input x(t). R Vin(t) = x(t) L Vout(t) = y(t) Enter the numeric values of the coefficients for the differential equation for this circuit, assuming: R = 10 Kohms L = 0.3 henries C = 10 microfarads (Enter only whole number values; no fractions or decimal points) y"(t) + type your answer... y'(t)+ type your answer... y(t) type your answer... x(t)+ type your answer... x'(t)
Derive the linear, constant-coefficient differential equation that describes the output of this circuit (the voltage across the capacitor = y(t)) in terms of the input voltage x(t) (shown with an AC power supply here) and the circuit element values R, L, C. Assume that there is no stored energy in this circuit prior to the application of a new input x(t). R Vin(t) = x(t) L Vout(t) = y(t) Enter the numeric values of the coefficients for the differential equation for this circuit, assuming: R = 10 Kohms L = 0.3 henries C = 10 microfarads (Enter only whole number values; no fractions or decimal points) y"(t) + type your answer... y'(t)+ type your answer... y(t) type your answer... x(t)+ type your answer... x'(t)
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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