For this circuit, what is i₁(0*), the current through the inductor at time t =0+.t = 03 Aa.b. 10/3 V0.5 V/sd. 0.5 A/sC.e.2 Vf.2 A10 Ag. 0h. 10 V10 Q2www+314 F1Hm592ww4u(t) A ・0t.For this circuit, what is v₁ (0+), the voltage across the resister at time t =1 Ht = 03 Aa. 0.5 A/sb.0.5 V/sC.Hint: Use KVL with vc(0*) and vr(0*) .2 Ad. 10/3 Ve. 10 Vf.10 A10 92g. 0h. 2 Vwww+31V4 F5Ωwww4u(t) A

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Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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THE SUBJECT IS BASIC ELECTRICAL ENGINEERING Chapter 11. Capacitor
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switch in position 1, the circuit will charge the inductor determine the thevenin equivalent circuit, the time constant (L/Rth) for the charge phase, and the v(t) and i(t) equations
An (open) electric circuit consists of an inductor, a resistor, and a capacitor. There is an initial charge of 2 coulombs on the capacitor. At the instant the circuit is closed, a current of 3 amperes is present and a voltage of E(t) = 20 cos t is applied. In this circuit the voltage drop across the resistor is 4 times the instantaneous change in the charge, the voltage drop across the capacitor is 10 times the charge, and the voltage drop across the inductor is 2 times the instantaneous change in the current. Write an initial value problem to model the circuit.
QUESTION 3 Consider the shown circuit, with the capacitor initially uncharged. When the switch S is moved to point a and the capacitor starts charging, find the time it takes the capacitor to be charged by 25 % of its final maximum charge. 60V 10µF 1MO ww 3MQ 2MQ
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How many milliseconds after the switch has been moved does the inductor voltage equal 45V?
A 10 mH inductor, a 1 μF capacitor, and a variable resistor are connected in parallel in the circuit of (Figure 1). The resistor is adjusted so that the roots of the characteristic equation are -8000+j6000 rad/s. The initial voltage on the capacitor is 10 V and the initial current in the inductor is 80 mA. Figure + Io iR R{ + V 1 of 1 Find B₁ in the solution for v(t). Express your answer to three significant figures and include the appropriate units. B₁ = 10.0 V Submit ✓ Correct Part D Previous Answers Find B₂ in the solution for v(t). Express your answer to three significant figures and include the appropriate units. B₂ = 640 Submit μA V Previous Answers Request Answer
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Problem 3 Find the expression for the v(t) and current i(t) of the capacitor as a function of time for the following circuit. ---Sketch the voltage and current of the capacitor as a function of time on a well labelled graph. 9V +1 2 ΚΩ 1 ΚΩ 150 μF oefe 1 ΚΩ t = 0 6 V

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For this circuit, what is i(0+), the current through the inductor at time t = = 0+. X 1 H m 3 A a. b. 10/3 V 0.5 V/s d. 0.5 A/s 2 A C. e. 2 V f. 10 A g. 0 h. 10 V 1092 t=0 +51 V : 4 F 5Ω 4u(t) A