Problem 2: Question 2. Consider the circuit diagram below. The circuit supplies power to the unknown resistive load, RL. a) Determine the value of the load that will result in maximum power transfer from the supply circuit to the load. b) Determine the value of the load that will result in 90% efficiency. c) Prove that your chosen load resistor in a) is allowing for maximum power transfer by plotting the power dissipated vs resistance for at least 6 load resistor values. Use CircuitJS to simulate the values for different load resistors. You do not have to submit anything from your simulations, but you do need to include your graph. The graph can be created by hand, Excel or Matlab. 41 ΚΩ V₁ 75 V 33 ΚΩ www 16 ΚΩ R₂

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Problem 2: Question
2. Consider the circuit diagram below. The circuit supplies power to the unknown
resistive load, RL.
a) Determine the value of the load that will result in maximum power transfer from
the supply circuit to the load.
b) Determine the value of the load that will result in 90% efficiency.
c) Prove that your chosen load resistor in a) is allowing for maximum power
transfer by plotting the power dissipated vs resistance for at least 6 load resistor
values. Use CircuitJS to simulate the values for different load resistors. You do not
have to submit anything from your simulations, but you do need to include your
graph. The graph can be created by hand, Excel or Matlab.
VT
75 V
+₁₁
33 ΚΩ
www
41 ΚΩ
16 ΚΩ
R₂
Transcribed Image Text:Problem 2: Question 2. Consider the circuit diagram below. The circuit supplies power to the unknown resistive load, RL. a) Determine the value of the load that will result in maximum power transfer from the supply circuit to the load. b) Determine the value of the load that will result in 90% efficiency. c) Prove that your chosen load resistor in a) is allowing for maximum power transfer by plotting the power dissipated vs resistance for at least 6 load resistor values. Use CircuitJS to simulate the values for different load resistors. You do not have to submit anything from your simulations, but you do need to include your graph. The graph can be created by hand, Excel or Matlab. VT 75 V +₁₁ 33 ΚΩ www 41 ΚΩ 16 ΚΩ R₂
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