6b. Replace the voltage source V1 with its internal impedance, and redraw the network with the current source 11 as the only power supply, then find the following quantities in this 11 network: RIN-11 (total R seen by 11, show all simplified networks) IR1-11 (total I through R1 due to 11) IR3-11 6c. (total I through R3 due to 11) Use the Superposition Principle to find the following quantities: JR1 (total I through R1) IR3 (total I through R3) Page 12 of 13 6. The Superposition Principle will be used to analyze the network shown in Figure 6. Follow the directions below. Show all work and simplified networks to receive credit. V1 R2 -10V 2k эко R4 240 R1 w 1KQ RS 8mA Figure 6. 6a. Replace the current source 11 with its internal impedance, and redraw the network with the voltage source V1 as the only power supply, then find the following quantities in this V1 network: RN-V (total R seen by V1, show all simplified networks) IN-VI (total I due to V1) √2-2 (total I through R1 due to V1) 183-v1 (total I through R3 due to V1) Page 10 of 13

Power System Analysis and Design (MindTap Course List)
6th Edition
ISBN:9781305632134
Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Chapter6: Power Flows
Section: Chapter Questions
Problem 6.61P
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6b.
Replace the voltage source V1 with its internal impedance, and redraw the network with the
current source 11 as the only power supply, then find the following quantities in this 11 network:
RIN-11
(total R seen by 11, show all simplified networks)
IR1-11
(total I through R1 due to 11)
IR3-11
6c.
(total I through R3 due to 11)
Use the Superposition Principle to find the following quantities:
JR1
(total I through R1)
IR3
(total I through R3)
Page 12 of 13
Transcribed Image Text:6b. Replace the voltage source V1 with its internal impedance, and redraw the network with the current source 11 as the only power supply, then find the following quantities in this 11 network: RIN-11 (total R seen by 11, show all simplified networks) IR1-11 (total I through R1 due to 11) IR3-11 6c. (total I through R3 due to 11) Use the Superposition Principle to find the following quantities: JR1 (total I through R1) IR3 (total I through R3) Page 12 of 13
6.
The Superposition Principle will be used to analyze the network shown in Figure 6. Follow the
directions below. Show all work and simplified networks to receive credit.
V1
R2
-10V
2k
эко
R4
240
R1
w
1KQ
RS
8mA
Figure 6.
6a. Replace the current source 11 with its internal impedance, and redraw the network with the
voltage source V1 as the only power supply, then find the following quantities in this V1 network:
RN-V
(total R seen by V1, show all simplified networks)
IN-VI
(total I due to V1)
√2-2
(total I through R1 due to V1)
183-v1
(total I through R3 due to V1)
Page 10 of 13
Transcribed Image Text:6. The Superposition Principle will be used to analyze the network shown in Figure 6. Follow the directions below. Show all work and simplified networks to receive credit. V1 R2 -10V 2k эко R4 240 R1 w 1KQ RS 8mA Figure 6. 6a. Replace the current source 11 with its internal impedance, and redraw the network with the voltage source V1 as the only power supply, then find the following quantities in this V1 network: RN-V (total R seen by V1, show all simplified networks) IN-VI (total I due to V1) √2-2 (total I through R1 due to V1) 183-v1 (total I through R3 due to V1) Page 10 of 13
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