► FIGURE 16-61 ► FIGURE 16-62 4₁ mo 5 mH 3.0/0° V 42 000 8.2 mH L₂ m 1000 pH 60 Hz 3 Analysis of Series RL Circuits 8.A 5 V, 10 kHz sinusoidal voltage is applied to the circuit in Figure 16-61. Calculate the voltage across the total resistance found in Problem 7. R ww 47 Ω R₁ WW 330 Ω 9. For the same applied voltage in Problem 8, determine the voltage across L3 for the circuit in Figure 16-61. 10. Express the current in polar form for each circuit of Figure 16-58. 11. Calculate the total current in each circuit of Figure 16-59 and express in polar form. 12. Determine for the circuit in Figure 16-62. itell R₂ 910 Ω L 0.1 H R₂ 1.0 ΚΩ
► FIGURE 16-61 ► FIGURE 16-62 4₁ mo 5 mH 3.0/0° V 42 000 8.2 mH L₂ m 1000 pH 60 Hz 3 Analysis of Series RL Circuits 8.A 5 V, 10 kHz sinusoidal voltage is applied to the circuit in Figure 16-61. Calculate the voltage across the total resistance found in Problem 7. R ww 47 Ω R₁ WW 330 Ω 9. For the same applied voltage in Problem 8, determine the voltage across L3 for the circuit in Figure 16-61. 10. Express the current in polar form for each circuit of Figure 16-58. 11. Calculate the total current in each circuit of Figure 16-59 and express in polar form. 12. Determine for the circuit in Figure 16-62. itell R₂ 910 Ω L 0.1 H R₂ 1.0 ΚΩ
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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Transcribed Image Text:► FIGURE 16-61
► FIGURE 16-62
L₁
m
5 mH
3.02.0° V
L2₂
m
8.2 mH
L₂
m
1000 με
60 Hz
3 Analysis of Series RL Circuits
8. A 5 V, 10 kHz sinusoidal voltage is applied to the circuit in Figure 16-61. Calculate the
voltage across the total resistance found in Problem 7.
R
M
9. For the same applied voltage in Problem 8, determine the voltage across L3 for the circuit
in Figure 16-61.
10. Express the current in polar form for each circuit of Figure 16-58.
11. Calculate the total current in each circuit of Figure 16-59 and express in polar form.
12. Determine 0 for the circuit in Figure 16-62.
47 Ω
R₁
WW
330 Ω
ell
R₂
910 Ω
ww
L
0.1 H
R₂
• 1.0 ΚΩ
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