Based upon the following assumptions V1 = 28V, R1 = 2.2kQ, R2 = 8380 R3 = 1.1kO, R4 = 2 5k2, R5 = 3.9k0. If there is a load resistor = 6800 between A and B use Thevenin's theorem and find the power dissipated in RTH with Ri in place State your answer in mW with 3 significant digits and only enter the number, no units. If necessary use scientific notation in the form 1200 = 1.2e3 or 0 012 = 1.2e-2. Notice it is power in RTH not R, that we're looking for. V1
Based upon the following assumptions V1 = 28V, R1 = 2.2kQ, R2 = 8380 R3 = 1.1kO, R4 = 2 5k2, R5 = 3.9k0. If there is a load resistor = 6800 between A and B use Thevenin's theorem and find the power dissipated in RTH with Ri in place State your answer in mW with 3 significant digits and only enter the number, no units. If necessary use scientific notation in the form 1200 = 1.2e3 or 0 012 = 1.2e-2. Notice it is power in RTH not R, that we're looking for. V1
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:Based upon the following assumptions V1 = 28V R1 = 2.2kQ, R2 = 8380 R3 = 1.1k), R4 = 2 5k) R5 = 3.9k)
If there is a load resistor = 680Q between A and B, use Thevenin's theorem and find the power dissipated in RTH with Rj in place State your answer in mW
with 3 significant digits and only enter the number, no units.
If necessary use scientific notation in the form 1200 = 1.2e3 or 0 012 = 1.2e-2. Notice it is power in RTH not Ri that we're looking for.
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