4.58 The variable de voltage source in the circuit in PSPICE Fig. P4.58 is adjusted so that i, is zero. ULTISIN a) Would you use the node-voltage or mesh-current method to find Vac? Explain your choice. b) Find the value of Va, using the method selected in (a). c) Check your solution by showing the power developed equals the power dissipated. Figure P4.58 23 V 50 w w 2012 300 w $102 150 w 46 V w 250 4.59 a) Make a series of source transformations to find the voltage in the circuit in Fig. P4.59. b) Verify your solution using the mesh-current method. Figure P4.59 35 V 10 kn 15 ΚΩ 5 k 8 mA 30 ΚΩ 25 k1 mA

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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Question
4.58 The variable de voltage source in the circuit in
PSPICE Fig. P4.58 is adjusted so that i, is zero.
ULTISIN
a) Would you use the node-voltage or mesh-current
method to find Vac? Explain your choice.
b) Find the value of Va, using the method selected
in (a).
c) Check your solution by showing the power
developed equals the power dissipated.
Figure P4.58
23 V
50
w
w
2012
300
w
$102
150
w
46 V
w
250
Transcribed Image Text:4.58 The variable de voltage source in the circuit in PSPICE Fig. P4.58 is adjusted so that i, is zero. ULTISIN a) Would you use the node-voltage or mesh-current method to find Vac? Explain your choice. b) Find the value of Va, using the method selected in (a). c) Check your solution by showing the power developed equals the power dissipated. Figure P4.58 23 V 50 w w 2012 300 w $102 150 w 46 V w 250
4.59 a) Make a series of source transformations to find
the voltage in the circuit in Fig. P4.59.
b) Verify your solution using the mesh-current
method.
Figure P4.59
35 V
10 kn
15 ΚΩ
5 k 8 mA
30 ΚΩ
25 k1 mA
Transcribed Image Text:4.59 a) Make a series of source transformations to find the voltage in the circuit in Fig. P4.59. b) Verify your solution using the mesh-current method. Figure P4.59 35 V 10 kn 15 ΚΩ 5 k 8 mA 30 ΚΩ 25 k1 mA
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