For the circuit shown below, the node voltage equation at the node of V2 is: 1/10 V V1 V2 50 70 10 /0 V j12 0 V3 Select one: V2-V3 +. 78 V2 V2-V3 - (1< 10>) = 0 - (1<10° >) = 0 a. +. 74 V2-V3 -j4 V2 V2-V3 +. + (1 < 10° >) = 0 j8 V2 O c. V2+V3 V2-V3 -(1<10°>) =0 +. j8 -j4 O d. None of these
For the circuit shown below, the node voltage equation at the node of V2 is: 1/10 V V1 V2 50 70 10 /0 V j12 0 V3 Select one: V2-V3 +. 78 V2 V2-V3 - (1< 10>) = 0 - (1<10° >) = 0 a. +. 74 V2-V3 -j4 V2 V2-V3 +. + (1 < 10° >) = 0 j8 V2 O c. V2+V3 V2-V3 -(1<10°>) =0 +. j8 -j4 O d. None of these
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Transcribed Image Text:For the circuit shown below, the node voltage equation at the node of V2 is:
1/10 V
V1
V2
50
10/0 V
70
je o
j12 0
V3
Select one:
O a. V2 + V2 V3 + V2 V3 - (1 < 10° >) = 0
V2-V3
- (1<10° >) = 0
78
-j4
V2-V3
j8
V2
V2-V3
+ (1 < 10° >) = 0
-j4
V2
O c.
V2+V3
V2-V3
+.
-j4
-(1<10°>) =0
18
O d. None of these
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