Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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- in circuit below the switch has been closed for a long time, at t=0s the switch is opened. Determine vc(t) for t>=0s Determine vc(1s) Determine iC(t) Determine iC(1s)arrow_forwardIn the circuit depicted below, determine the voltage across the capacitor for t > 0. Your answer will be a function of t, using impulsive functions to represent discontinuities. 50 5 A 0.01 F 0.2 H 25 u(t) V Edit View Insert Format Tools Table 12pt v Paragraph v BIUA ...arrow_forwardThe switch in figure below has been in position A for a long time and is moved to B at t=0 a) Transform the circuit in s-domain and find i (s) b) Find i (t). R1=R2 = 5002, R3= 1kN, L= 250mH, C = 4µF. R1 A t=0 R2 L1 5000 5000 250mH B V1 C1 15V R3 1kQ 4µF. = Vcarrow_forward
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- Consider the circuit below with i(t) = 80 sin(20t) mA for t> 0 and i(t) = 0 for t <0. C1-400 uF. C submission after the quiz.) i(t) Question 3: C1 2 Find the expression for the voltage flowing through the capacitor. (Be sure to enter an answer herearrow_forwardIn the circuit above, C1 = 41 mF, C2 = 93 mF, and vC1(0-) = vC2(0-)=0. To complete the KVL equation, what will be the value of X? Vs (t) = Ri (i) + X ∫ i (r) dr Note: Integral in the above equation goes from 0 to tarrow_forward4. In the circuit below, the switch has been Starting position for its a time before and icht) for moving + at t=0. Find v(t) for +20+ +=0 + 5v ic(+) IM HE 202 www (50/3) ictt) + 25μF V(+)arrow_forward
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