Figure 2 shows a circuit diagram which is to be used as a source for a load resistor. The load resistor is going to be connected between terminals A and B (Load not shown). 10 V 6Ω 1222 20 V Figure 2 922 OA -OB Derive and draw the Thévenin equivalent circuit for the source network using the superposition principle.

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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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(a)
Figure 2 shows a circuit diagram which is to be used as a source for a
load resistor. The load resistor is going to be connected between terminals
A and B (Load not shown).
10 V
6Ω
1222
20 V
Figure 2
9Ω
OA
OB
Derive and draw the Thévenin equivalent circuit for the source network
using the superposition principle.
Transcribed Image Text:(a) Figure 2 shows a circuit diagram which is to be used as a source for a load resistor. The load resistor is going to be connected between terminals A and B (Load not shown). 10 V 6Ω 1222 20 V Figure 2 9Ω OA OB Derive and draw the Thévenin equivalent circuit for the source network using the superposition principle.
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