The circuit of Fig. 1.100 has the following data: E = 150 V, L = 10 mH rL (resistance of the inductor) = 0.1 2, Rid = 0.7 2, and C = 70 µF. Determine (i) the expression for the current i (t), (ii) the pulse width, and (iii) the time fo ve to attain a value of 1.4E. Ans. i(t) = 12.56 sin wt with w = 1196 rad/s, t, = 2.63 ms, and the time fo ve to attain 1.4E is 1.66 m: Rid VTh E Fig. I.100
The circuit of Fig. 1.100 has the following data: E = 150 V, L = 10 mH rL (resistance of the inductor) = 0.1 2, Rid = 0.7 2, and C = 70 µF. Determine (i) the expression for the current i (t), (ii) the pulse width, and (iii) the time fo ve to attain a value of 1.4E. Ans. i(t) = 12.56 sin wt with w = 1196 rad/s, t, = 2.63 ms, and the time fo ve to attain 1.4E is 1.66 m: Rid VTh E Fig. I.100
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:. The circuit of Fig. 1.100 has the following data: E = 150 V, L = 10 mH
rį (resistance of the inductor) = 0.1 N, Rịd = 0.7 2, and C = 70 µF. Determine
(i) the expression for the current i(t), (ii) the pulse width, and (iii) the time for
ve to attain a value of 1.4E.
Ans. i(t) = 12.56 sin wt with w = 1196 rad/s, t, = 2.63 ms, and the time fo
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ve to attain 1.4E is 1.66 ms
Rid
Th
E
Fig. I.100
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