Problems Sections 3.2 and 3.3 Nodal Analysis 3.3 Find the currents /, through l, and the voltage , in the circuit of Fig 3.52. 3.1 Using Fig. 3.50, design a problem to help other ead students better understand nodal analysis ww. IDA O 100 30a 1A O soa 12V Figure 3.50 For Prob. 3.1. Figure 3.52 For Prob. 33. 3.2 For the circuit in Fig. 3.51, obtain e, and es 3.4 Given the circuit in Fig. 3.53, caleulate the currents I, through l 20 ww 12A 2A 4A O sa 1003 sa SA O Figure 3.51 For Prob. 3.2. Figure 3.53 For Prob. 34. Probiems 115 3.5 Ohtain in the circuit of Fig. 3,54. 3.9 Determine l, in the circuit of Fig 3.58 using nodal analysis 20ve 250a ww. 30 V 12VO E1900 Figure 3.54 For Prob. 35. Figure 3.58 For Prob. 3.9. 3.6 Use nodal analysis to obtain , in the circuit of Fig. 3.55. J.10 Find , in the cincuit of Fig. 1.59. ww 21. 12V sa 20 Figure 3.55 For Proh. 36. Figure 3.59 For Prob. 3.10. 3.7 Apply nodal analysis to solve for V, in the circuit of Fig. 3.56. 3.11 Find V, and the power dissipated in all the resistors in the circuit of ng. 3.60. ww 36 V 12V 2A O 10a 02V, Figure 3.56 For Proh. 3.7. Figure 3.60 For Prob. 3.11 3.12 Using nodal analysis, determine V, in the cincuit in Fig 3.61. 3.8 Using nodal analysis, find , in the circuit of Fig 3.57. 30 ww www- www. ww- 3V 50 30 v O 20 Figure 3.57 For Prob. 38. Figure 3.61 For Prob. 3.12.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Question
For Review Questions 3.7 and 3.8
(e) It is used only for de analysis.
() It does not corespond to a particular circuit
element.
3.8 The voltage v across the current source in the circuit
of Fig. 3,49 is:
Answers: 3.Ja, 3.2c, 3.3a, 3.4c, 3.5c, 3.6a, 3.7d, 3.8b,
3.9c, 3.10b.d.
(a) 20 V
(b) 15 V
(c) 10 V
(d) 5 V
Problems
Sections 3.2 and 3.3 Nodal Analysis
3.3 Find the currents /, through , and the voltage v, in
the circuit of Fig 3,52.
3.1 Using Fig. 3.50, design a problem to help other
ead students better understand nodal analysis.
14
ww
ww
10A O 100
200
30 a 2A O 600
12V
19V
Figure 3.50
Figure 3.52
For Prob. 3.3.
For Prob. 3.1.
3.2 For the circuit in Fig. 3.51, obtain e, and ey.
3.4 Given the circuit in Fig. 3.53, calculate the currents
I, through l
20
ww
12A
2A
sa s0 0
14
102
4 A O 32 102
SA O
100
Figure 3.51
For Prob. 3.2.
Figure 3.53
For Prob. 3.4.
Problems
115
3.5 Obtain t, in the circuit of Fig. 3.54.
3.9 Determine I, in the circuit of Fig. 3.58 using nodal
analysis.
250 2
30 V
20 V
ww-
2 k0
12 V I
50 2
Figure 3.54
Figure 3.58
For Proh. 3.9.
For Prob. 35.
3.6 Use nodal analysis to obtain , in the circuit of
Fig. 3.55.
3.10 Find I, in the circuit of Fig. 3.59.
10 V
21,
12v O
G12
211
:20
Figure 3.55
Figure 3.59
For Prob. 3.10.
For Proh. 3.6.
3.11 Find V, and the power dissipated in all the resistors
in the circuit of Fig. 3.60.
3.7 Apply nodal analysis to solve for V, in the circuit of
Fig. 3.56.
V.
ww
ww
36 V ()
:22
E) 12 V
201
O 0.2V,
2A
Figure 3.56
Figure 3.60
For Prob. 3.7.
For Prob. 3.11.
3.12 Using nodal analysis, determine V, in the circuit in
Fig. 3.61.
3.8 Using nodal analysis, find v, in the circuit of Fig 3.57.
100
ww w
w-
www
ww-
3V
30 v O
50
20 41,
Figure 3.57
For Prob. 3.8.
Figure 3.61
For Prob. 3.12.
Transcribed Image Text:For Review Questions 3.7 and 3.8 (e) It is used only for de analysis. () It does not corespond to a particular circuit element. 3.8 The voltage v across the current source in the circuit of Fig. 3,49 is: Answers: 3.Ja, 3.2c, 3.3a, 3.4c, 3.5c, 3.6a, 3.7d, 3.8b, 3.9c, 3.10b.d. (a) 20 V (b) 15 V (c) 10 V (d) 5 V Problems Sections 3.2 and 3.3 Nodal Analysis 3.3 Find the currents /, through , and the voltage v, in the circuit of Fig 3,52. 3.1 Using Fig. 3.50, design a problem to help other ead students better understand nodal analysis. 14 ww ww 10A O 100 200 30 a 2A O 600 12V 19V Figure 3.50 Figure 3.52 For Prob. 3.3. For Prob. 3.1. 3.2 For the circuit in Fig. 3.51, obtain e, and ey. 3.4 Given the circuit in Fig. 3.53, calculate the currents I, through l 20 ww 12A 2A sa s0 0 14 102 4 A O 32 102 SA O 100 Figure 3.51 For Prob. 3.2. Figure 3.53 For Prob. 3.4. Problems 115 3.5 Obtain t, in the circuit of Fig. 3.54. 3.9 Determine I, in the circuit of Fig. 3.58 using nodal analysis. 250 2 30 V 20 V ww- 2 k0 12 V I 50 2 Figure 3.54 Figure 3.58 For Proh. 3.9. For Prob. 35. 3.6 Use nodal analysis to obtain , in the circuit of Fig. 3.55. 3.10 Find I, in the circuit of Fig. 3.59. 10 V 21, 12v O G12 211 :20 Figure 3.55 Figure 3.59 For Prob. 3.10. For Proh. 3.6. 3.11 Find V, and the power dissipated in all the resistors in the circuit of Fig. 3.60. 3.7 Apply nodal analysis to solve for V, in the circuit of Fig. 3.56. V. ww ww 36 V () :22 E) 12 V 201 O 0.2V, 2A Figure 3.56 Figure 3.60 For Prob. 3.7. For Prob. 3.11. 3.12 Using nodal analysis, determine V, in the circuit in Fig. 3.61. 3.8 Using nodal analysis, find v, in the circuit of Fig 3.57. 100 ww w w- www ww- 3V 30 v O 50 20 41, Figure 3.57 For Prob. 3.8. Figure 3.61 For Prob. 3.12.
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