The RL network in Figure 1.157 has been at rest for a long period of time with the switch Si closed. At time t = 0, Sı is opened as indicated on the schematic. Using the values shown, you are asked to do the following. (a) Calculate values for the inductor current iL(t) at t = 0* and t=∞ (i.e., iL(0*) and İL(0)), and the network time constant t in seconds. (b) Apply these values to generate and write fully the complete time-domain expression for iL (t) found from the solution of the network describing equation. (c) Calculate the value for the rise time t; in seconds. i,(t) 000 22µH R, R2 1ΚΩ 2ΚΩ 13A R 1 ΚΩ 5002 Yt = 0 Figure 1.157 RL network driven by current source J1

The RL network in Figure 1.157 has been at rest for a long period of time with the switch Si closed. At time t = 0, Sı is opened as indicated on the schematic. Using the values shown, you are asked to do the following. (a) Calculate values for the inductor current iL(t) at t = 0* and t=∞ (i.e., iL(0*) and İL(0)), and the network time constant t in seconds. (b) Apply these values to generate and write fully the complete time-domain expression for iL (t) found from the solution of the network describing equation. (c) Calculate the value for the rise time t; in seconds. i,(t) 000 22µH R, R2 1ΚΩ 2ΚΩ 13A R 1 ΚΩ 5002 Yt = 0 Figure 1.157 RL network driven by current source J1

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...

See similar textbooks

Similar questions

Which of the following is true when charging a capacitor using a DC source? Current will flow due to the DC source and will charge the capacitor. Once the capacitor is fully charged, it has to be removed from the circuit it will not exceed the voltage of the source to avoid short-circuiting. Since capacitors behave as open circuits when a DC source is applied, there will be no charging current. The charging will happen due to KVL where the voltage of the source will be charged to the capacitor. Current will flow due to the DC source and will charge the capacitor. Once the capacitor is fully charged, it will act as if it is an open circuit. The answer cannot be found on the other choices.
The R-L Circuit: An inductor with an inductance of 2.50 H and a resistance of 7.00 n is connected to the terminals ofa battery with an emf of 6.00 V and an internal resistance of 1.00 n. What is the rate ofincrease of current at the instant when the current is 0.500 A? A) 0.8 A/s B) 0.6 A/s C) 0.4 A/s D) zero E) None of the above.
The switch moves from position A to position B at t = 0 (please note that the switch must connect to point B before it breaks the connection at A, a make before break switch). Find the inductor current.
For the circuit below with input voltage V1, a step function of magnitude 15 volts at time t=0, find the transient response voltage across the resistor R2 and plot the results: (Provide your calculations and reasoning for your answer.) L1 200mH C1 HI 50u R2 100 V1 = 0 V2 = 15 TD = 0 V1 TR = 1n TF = 1n PW = .5 PER =
I Review | Constants In the circuit shown in the following figure(Figure 1) the capacitor has capacitance 17 uF and is initially uncharged. The resistor Ro has resistance 11N. An emf of 91.0 V is added in series with the capacitor and the resistor. The emf is placed between the capacitor and the switch, with the positive terminal of the emf adjacent to the capacitor. The small circuit is not connected in any way to the large one. The wire of the small circuit has a resistance of 1.0 N/m and contains 30 loops. The large Part A The switch is closed at t = 0. When the current in the large circuit is 3.10 A , what is the magnitude of the induced current in the small circuit? Express your answer with the appropriate units. circuit is a rectangle 2.0 m by 4.0 m, while the small one has dimensions a = 13.0 cm and b = 23.0 cm. The distance c is 4.0 cm. (The figure is not drawn to scale.) Both circuits are held stationary. Assume that only the wire nearest the small circuit produces an…
Q1/ For the network shown in figure (Qı), the switch has been in position “a" for a long time. At t=0, the switch moves and stays at position "b". Determine an expression for the inductor current iL(t) when t20 using the general solution formula. 5sL Lielt) 122 a tzo 6052 lom k 72V 202
4. For the waveform of the current through a 100 mH inductor, plot v (t) for the first 8ms i(t) mA 200 गळागों + + 4 5 6 100- 50 -50 -t mS
Please all subpart is compulsory either dislike is ready Ok please all subpart in short
For the circuit below with switch U1 closing at time t=0 and the initial current in inductor L1 equal zero, find the transient response voltage across the resistor R1: (Provide your calculations and reasoning for your answer.) L1 U1 50mH 11 R2 1k R1 0.150Ado 15
Provide solution.
In the circuit shown in Figure, the switch S is closed at time t = 0. the voltage across the inductance at t = 0+ 352 10V A) 2V B) 4V C) -6V D 8V S m HIMM 112 4F ΔΩ 000
Please provide Handwritten answer