Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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Textbook Question
Chapter 16, Problem 6P
For each network of Fig. 16.68:
a. find the total admittance in rectangular form.
b. Using the results of part (a) build and equivalent parallel network for that of Fig. 16.68.
Fig. 16.68
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4. For the network of Fig. 16.42:
a. Find the total impedance Z7.
b. Calculate the voltage V2 and the current I.
c. Find the power factor of the network.
+ V2-
Xc
R1
R, = 80
X1,
R3 = 80
ll
XL, = 3 0 I
Z7
I = 5AZ0°
FIG. 16.42
4. For the network of Fig. 16.42:
a. Find the total impedance Z7.
b. Calculate the voltage V2 and the current Iz.
c. Find the power factor of the network.
+ V2 -
Xc
R, = 82
R1
20
XL,
R = 82
ll
X, = 30 I
Z7
I = 5AZ0°
FIG. 16.42
4. For the network of Fig. 16.42:
a. Find the total impedance Z7.
b. Calculate the voltage V2 and the current Iz.
c. Find the power factor of the network.
+ V2 -
Xc
R1
R = 8N
20
X1,
R3 = 80
ll
X, = 3 0 I,
Z7
I = 5 AZ0°
FIG. 16.42
Chapter 16 Solutions
Introductory Circuit Analysis (13th Edition)
Ch. 16 - Find the total impedance of the parallel networks...Ch. 16 - Find the total impedance of the parallel...Ch. 16 - Prob. 3PCh. 16 - For each configuration of Fig. 16.66: a. Find the...Ch. 16 - For each configuration of Fig. 16.67 a. Find the...Ch. 16 - For each network of Fig. 16.68: a. find the total...Ch. 16 - For the circuit of Fig. 16.69: a. Find the total...Ch. 16 - Given the voltage and current shown in Fig. 16.70,...Ch. 16 - For the network in Fig. 16.71: a. Find the total...Ch. 16 - Repeat Problem 9 for the network in Fig. 16.72,...
Ch. 16 - For the network of Fig. 16.73: a. Find the total...Ch. 16 - For the network in Fig. 16.74: a. Find the total...Ch. 16 - Repeat Problem 12 for the circuit in Fig. 16.75...Ch. 16 - Calculate the currents I1 and I2 in Fig. 16.76 in...Ch. 16 - For the parallel R-C network in Fig. 16.77: a....Ch. 16 - For the parallel R-L network in Fig. 16.78: a....Ch. 16 - Plot YTandT(ofYT=YTT) for a frequency range of...Ch. 16 - Plot YTandT(ofYT=YTT) for a frequency range of...Ch. 16 - For the parallel R-L-C network in Fig. 16.79. a....Ch. 16 - For the series circuits in Fig. 16.80, find a...Ch. 16 - For the parallel circuits in Fig. 16.81, find a...Ch. 16 - For the network in Fig. 16.82: a. Calculate E, IR,...Ch. 16 - Find the element or elements that must be in the...Ch. 16 - For the network in Fig. 16.13 (usef=1kHz): a....Ch. 16 - For the network in Fig. 16.32: a. Plot the...
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- Find ix using Nodal Analysisarrow_forwardHW3C2 4. For the network of Fig. 16.42: a. Find the total impedance ZT. b. Calculate the voltage V₂ and the current II. c. Find the power factor of the network. I = 5A/0° + R₁ www 202 ZT Xc 4Ω XL₁ voo 60 - 1998.0 FIG. 16.42 + V₂- www R₂ = 80 ww R₂ = 80 voo = 30 1₂arrow_forwardIn wind turbine,at 16-40 km/h wind, generated power does not increases with wind speed. Select one: True Falsearrow_forward
- USING NODAL ANALYSIS FIND IXarrow_forward1- For the network of Fig. 16.40: a. Find the total impedance Z₁. b. Determine the current I,. c. Calculate I using the current divider rule. d. Calculate V₂ using the voltage divider rule. E = 30 V 20° + L R₁ www 302 voo X₂ = 60 R₂ 202 Xc 80 lcarrow_forward*6. For the network of Fig. 16.44: a. Find the current I1. b. Calculate the voltage Vc using the voltage divider rule. c. Find the voltage Vab- R130 13 Ω Vο E = 120 V Z 60° XL, FIG. 16.44 ll llarrow_forward
- Find voltage Vp using nodal analysis.arrow_forwardQy Using Nodal analysis, find the Voltage 3.4 resistor(Note: use determinant across to solve the equations) 3.4 5.6arrow_forwardHome Work • 1. Do a, d-g in the problem below : For the network of Fig. 16.73: *a. Find the total impedance "seen" by the source. b. Using the results of part (a), find the total admittance. c. Sketch the admittance diagram for the parallel network. d. Determine the source current Is. e. Calculate the current through the capacitive element Ic. f. Write the sinusoidal expressions for the applied voltage and source current. g. What is the power factor of the network? Is it leading or lagging? Is this considered a capacitive or inductive configuration? R2 40 2 R1 220 N EA) 12 V 0° 120 N X 60 N FIG. 16.73arrow_forward
- use nodal analysis to find Ixarrow_forwardH.w. using Branch currenb method Determine in Fig CI)i to I, 30arrow_forward*6. For the network of Fig. 16.44: a. Find the current I. b. Calculate the voltage Vc using the voltage divider rule. c. Find the voltage Vab- R 30 Xc 13 2 Vc E = 120 V Z 60° X, 3 FIG. 16.44 llarrow_forward
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