4.14 The circuit shown in Fig. P4.14 is a dc model of a PSPICE residential power distribution circuit. 11JSM. a) Use the node-voltage method to find the branch currents i - i6. sil b) Test your solution for the branch currents by showing that the total power dissipated equals the total power developed. adbi (d

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I need help with question 4.14 the question it is confusing for me.
PSPICE
ELISM
144 V
PSPICE
MITSM.
PSPICE
MULTISM.
4.12 a) Use the node-voltage method to find the branch
currents i- ie in the circuit shown in Fig. P4.12.
b) Find the total power developed in the circuit.
Figure P4.12
44 V
Cher
4Ω
40 V
la
Figure P4.13
v₁10 v2
b.
3 Ω
1Ω
+
{6Ω i {3Ω
4.13 a) Use the node-voltage method to find v₁, V2, and
V3 in the circuit in Fig. P4.13.00
b) How much power does the 40 V voltage source
deliver to the circuit?
Tiupio sit ame
202
(13 A
υξ 40 Ω v2
V3+
www
12 — 2Ω
202
+
{5Ω
in the
2 V
eretice pde in (a) and
Σ4Ω
0025
28 A
4.14 The circuit shown in Fig. P4.14 is a dc model of a
power distribution circuit.
residential
ng and currents i₁i6.
a) Use the node-voltage method to find the branch
boń sill sell (s 2SA
-
b) Test your solution for the branch currents by
To the total power developed.
showing that the total power dissipated equals
(d
Transcribed Image Text:PSPICE ELISM 144 V PSPICE MITSM. PSPICE MULTISM. 4.12 a) Use the node-voltage method to find the branch currents i- ie in the circuit shown in Fig. P4.12. b) Find the total power developed in the circuit. Figure P4.12 44 V Cher 4Ω 40 V la Figure P4.13 v₁10 v2 b. 3 Ω 1Ω + {6Ω i {3Ω 4.13 a) Use the node-voltage method to find v₁, V2, and V3 in the circuit in Fig. P4.13.00 b) How much power does the 40 V voltage source deliver to the circuit? Tiupio sit ame 202 (13 A υξ 40 Ω v2 V3+ www 12 — 2Ω 202 + {5Ω in the 2 V eretice pde in (a) and Σ4Ω 0025 28 A 4.14 The circuit shown in Fig. P4.14 is a dc model of a power distribution circuit. residential ng and currents i₁i6. a) Use the node-voltage method to find the branch boń sill sell (s 2SA - b) Test your solution for the branch currents by To the total power developed. showing that the total power dissipated equals (d
Figure P4.14
125 V
125 V
M
Fig.
nen on the
01
Joped 12
Hi batu2 og IRIGT sar b (d
i₁
+
40 V
+
sbni
di ban of bodiem sentov-
5 Use the node-voltage method to find the
power dissipated in the circuit in Fig. P4.15.
istot
Figure P4.15
202
www
12
Vre12 0
Wh values c
alevisnA fiuosito Problems
+ ang
1Ω
www
13
is 12 N
Lyze
5 A
20 Ω
www
25 Ω
819 hopA
(200242
6<
40 Ω
d by the an
End o as
40 Ω
6 a) Use the node-voltage method to show th
output voltage vo in the circuit in Fig. P
equal to the average value of the source vc
WOL
Transcribed Image Text:Figure P4.14 125 V 125 V M Fig. nen on the 01 Joped 12 Hi batu2 og IRIGT sar b (d i₁ + 40 V + sbni di ban of bodiem sentov- 5 Use the node-voltage method to find the power dissipated in the circuit in Fig. P4.15. istot Figure P4.15 202 www 12 Vre12 0 Wh values c alevisnA fiuosito Problems + ang 1Ω www 13 is 12 N Lyze 5 A 20 Ω www 25 Ω 819 hopA (200242 6< 40 Ω d by the an End o as 40 Ω 6 a) Use the node-voltage method to show th output voltage vo in the circuit in Fig. P equal to the average value of the source vc WOL
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