Part II Design the circuit shown to get the value for R such that the power dissipations in both load resistors 75 and 150 Ohm are equal. R Source Internal resistance 502 12V 150 2 Radio Circuit I nput Re sistance 752 1. Get the load currents as functions of the variable resistance R. 2. Get the power dissipations in the two load resistors as functions of the variable resistance R. 3. Use the functions obtained in 1 and 2 to find the value of the resistance R that makes the power dissipations in both load resistors equal.
Part II Design the circuit shown to get the value for R such that the power dissipations in both load resistors 75 and 150 Ohm are equal. R Source Internal resistance 502 12V 150 2 Radio Circuit I nput Re sistance 752 1. Get the load currents as functions of the variable resistance R. 2. Get the power dissipations in the two load resistors as functions of the variable resistance R. 3. Use the functions obtained in 1 and 2 to find the value of the resistance R that makes the power dissipations in both load resistors equal.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Transcribed Image Text:Part II
Design the circuit shown to get the value for R such that the power
dissipations in both load resistors 75 and 150 Ohm are equal.
Source Internal
resistance 502
150 Ω
Radio Circuit
12V
I nput Re sistance 752
1. Get the load currents as functions of the variable resistance R.
2. Get the power dissipations in the two load resistors as functions of the variable
resistance R.
3. Use the functions obtained in 1 and 2 to find the value of the resistance R that makes
the power dissipations in both load resistors equal.
4. Show your circuit calculations and use Matlab to draw the functions of the power
dissipations in the two load resistors in the same figure and get the intersection point
and therefore the resistor value R.
5. Use Multisim for circuit simulations and to validate your results.
6. Implement the circuit design you obtained in the lab and get the measurements of the
load currents to validate your design.
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