An electrical network that consists of three resistors and one inductor is shown in Fig. 1. (t) is the inp voltage and y (t) is the output voltage, which is also the inductor voltage. Below the figure, x(t) 152 www 492 592 2H3 y(t) 1 i. Determine the mathematical model relating the input voltage, (t) and the output voltage, y(t). ii. Find the characteristic equation and characteristic roots from the mathematical model. iii. Determine the zero-input response of the system assuming initial conditions of y(0) = 7 and i(0) = -6.

Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
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An electrical network that consists of three resistors and one inductor is shown in Fig. 1. (t) is the input
voltage and y (t) is the output voltage, which is also the inductor voltage. Below the figure,
x(t)
192
ww
592
www
492
2H3 y(t)
i. Determine the mathematical model relating the input voltage, (t) and the output voltage, y(t).
ii. Find the characteristic equation and characteristic roots from the mathematical model.
iii. Determine the zero-input response of the system assuming initial
conditions of y(0) = 7 and i(0) = -6.
iv. Determine the impulse response of the system
v. Determine the zero-state response of the system if it is subjected to an
external input of x (t) = u(t).
Transcribed Image Text:An electrical network that consists of three resistors and one inductor is shown in Fig. 1. (t) is the input voltage and y (t) is the output voltage, which is also the inductor voltage. Below the figure, x(t) 192 ww 592 www 492 2H3 y(t) i. Determine the mathematical model relating the input voltage, (t) and the output voltage, y(t). ii. Find the characteristic equation and characteristic roots from the mathematical model. iii. Determine the zero-input response of the system assuming initial conditions of y(0) = 7 and i(0) = -6. iv. Determine the impulse response of the system v. Determine the zero-state response of the system if it is subjected to an external input of x (t) = u(t).
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