Question 30 a) Employ Thévenin's theorem to obtain a simple two-component equivalent of the circuit shown in Fig. 5.72. b) Use your equivalent circuit to determine the power delivered to a 100 2 resistor connected to the open terminals. c) Verify your solution by analyzing the original circuit with the same 100 resistor connected across the open terminals. 75 Ω 450² 45 Ω 0.7 V FIGURE 5.72 122 02 220 Ω ww 10.3 A
Question 30 a) Employ Thévenin's theorem to obtain a simple two-component equivalent of the circuit shown in Fig. 5.72. b) Use your equivalent circuit to determine the power delivered to a 100 2 resistor connected to the open terminals. c) Verify your solution by analyzing the original circuit with the same 100 resistor connected across the open terminals. 75 Ω 450² 45 Ω 0.7 V FIGURE 5.72 122 02 220 Ω ww 10.3 A
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:Question 30
a) Employ Thévenin's theorem to obtain a simple two-component equivalent of the circuit shown in
Fig. 5.72.
b)
Use your equivalent circuit to determine the power delivered to a 100 2 resistor connected to the
open terminals.
c)
Verify your solution by analyzing the original circuit with the same 100 2 resistor connected
across the open terminals.
45 Ω
QTVⒸ 1
0.7 V
FIGURE 5.72
75 Ω
ww
122 02
220 Ω
wwo
0.3 A
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