Problem #19) Given the circuit shown below, determine the magnitude of the power that will be consumed by each of the resistors and the magnitude of the power that will be produced by the voltage source. www 20Ω P2002=. 0.8 . (W) (W) (W) 10V 30Ω P300 = 1.2 Psource= Problem #20) Given the following circuit, determine the current Ipc that will in the circuit (as shown). = 2.0

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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19
V30x10
W/₂0= 10
(V)
Problem #19) Given the circuit shown below, determine the magnitude of the power that will be consumed by
each of the resistors and the magnitude of the power that will be produced by the voltage source.
0.8
10V
2002
IDC 100Ω
3002
36V 20V
www
R₁ =1292
30
R₂=402
www
R3=1552
P2002=
Problem #20) Given the following circuit, determine the current Ipc that will in the circuit (as shown).
www
R₁=4552 V₁
P302=
Psource
=
IDC =
Problem #21) Determine the source current Inc and the resistor voltage V4 as shown in the following circuit
using the Reduce and Return Method if the source voltage is Vpc = 72 volts.
1.2
2.0
IDC =.
V₁=.
(W)
. (W)
(W)
0.16 (A)
2 (A)
(V)
36
Transcribed Image Text:V30x10 W/₂0= 10 (V) Problem #19) Given the circuit shown below, determine the magnitude of the power that will be consumed by each of the resistors and the magnitude of the power that will be produced by the voltage source. 0.8 10V 2002 IDC 100Ω 3002 36V 20V www R₁ =1292 30 R₂=402 www R3=1552 P2002= Problem #20) Given the following circuit, determine the current Ipc that will in the circuit (as shown). www R₁=4552 V₁ P302= Psource = IDC = Problem #21) Determine the source current Inc and the resistor voltage V4 as shown in the following circuit using the Reduce and Return Method if the source voltage is Vpc = 72 volts. 1.2 2.0 IDC =. V₁=. (W) . (W) (W) 0.16 (A) 2 (A) (V) 36
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