Figure 4.82 For Prob. 4.14. in 4.15 For the circuit in Fig. 4.83, use superposition to Calculate the power delivered to the 3-0 resis ps 12 O 2 A

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Question: Figure 4.83 For Probs. 4.15-and 4.56. 6 Given the circuit in Fig. 4.84, use, superposition

my to detE
4Ω
V.
3Ω
2Ω
: 3Ω
ww
3 V
9 V
6Ω
4 2
9 A
Figure 4.72
For Prob. 4.4.
Figure 4.76
For Prob. 4.8.
Problems
163
4.9
Use superposition to find v, in the circuit of Fig. 4.77.
4.13 Use superposition to find v, in the circuit of Fig. 4.81.
ps
p's
4 A
2Ω
6 A
Vo
18 V
2 A (4
12 V
10 Ω
5Ω
Figure 4.77
For Prob. 4.9.
Figure 4.81
For Prob. 4.13.
4.10 Using Fig. 4.78, design a problem to help other
end students better understand superposition. Note, the
letter k is a gain you can specify to make the
problem easier to solve but must not be zero.
4.14 Apply the superposition principle to find v, in the
circuit of Fig. 4.82.
ps
4 A
kVab
R
ww
a
4Ω
2Ω
Vab
+.
40 V
4) 2 A
3Ω
Figure 4.78
For Prob. 4.10.
Figure 4.82
For Prob. 4.14.
4.11 Use the superposition principle to find i, and v, in
the circuit of Fig. 4.79.
ps
4.15 For the circuit in Fig. 4.83, use superposition to find i.
Calculate the power delivered to the 3-0 resistor.
ps
1, 10 2
20 Ω
1Ω
) 2 A
+ v. -
20 V
6 A
40 Ω:
4i0
30 V
16 V
3Ω
Figure 4.79
For Prob. 4.11.
Figure 4.83
For Probs. 4.15 and 4.56.
4.12 Determine v, in the circuit of Fig. 4.80 using the
superposition principle.
4.16 Given the circuit in Fig. 4.84, use superposition to
get i.
ps
4 A
2 A
6Ω
4Ω
4Ω
3Ω
2Ω
ww-
ww
24 V
3 2
12Ω
38 V
12 V
10 Ω
4 A
Figure 4.80
Figure 4.84
For Probs. 4.12 and 4.35.
For Prob. 4.16.
+ 1
ww-
ww-
ww
Transcribed Image Text:my to detE 4Ω V. 3Ω 2Ω : 3Ω ww 3 V 9 V 6Ω 4 2 9 A Figure 4.72 For Prob. 4.4. Figure 4.76 For Prob. 4.8. Problems 163 4.9 Use superposition to find v, in the circuit of Fig. 4.77. 4.13 Use superposition to find v, in the circuit of Fig. 4.81. ps p's 4 A 2Ω 6 A Vo 18 V 2 A (4 12 V 10 Ω 5Ω Figure 4.77 For Prob. 4.9. Figure 4.81 For Prob. 4.13. 4.10 Using Fig. 4.78, design a problem to help other end students better understand superposition. Note, the letter k is a gain you can specify to make the problem easier to solve but must not be zero. 4.14 Apply the superposition principle to find v, in the circuit of Fig. 4.82. ps 4 A kVab R ww a 4Ω 2Ω Vab +. 40 V 4) 2 A 3Ω Figure 4.78 For Prob. 4.10. Figure 4.82 For Prob. 4.14. 4.11 Use the superposition principle to find i, and v, in the circuit of Fig. 4.79. ps 4.15 For the circuit in Fig. 4.83, use superposition to find i. Calculate the power delivered to the 3-0 resistor. ps 1, 10 2 20 Ω 1Ω ) 2 A + v. - 20 V 6 A 40 Ω: 4i0 30 V 16 V 3Ω Figure 4.79 For Prob. 4.11. Figure 4.83 For Probs. 4.15 and 4.56. 4.12 Determine v, in the circuit of Fig. 4.80 using the superposition principle. 4.16 Given the circuit in Fig. 4.84, use superposition to get i. ps 4 A 2 A 6Ω 4Ω 4Ω 3Ω 2Ω ww- ww 24 V 3 2 12Ω 38 V 12 V 10 Ω 4 A Figure 4.80 Figure 4.84 For Probs. 4.12 and 4.35. For Prob. 4.16. + 1 ww- ww- ww
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