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For the circuit in the figure using the node analysis methodology. a 1mA V, 1kn 2 ΚΩ la. Find the value of the Thévenin voltage b. Find the value of the Norton current IN w 3 ΚΩ 4V₂ 1000 Ic betermine the value of RL value that allows the maximum power transfer from the scuit to the load.

For the circuit in the figure using the node analysis methodology. a 1mA V, 1kn 2 ΚΩ la. Find the value of the Thévenin voltage b. Find the value of the Norton current IN w 3 ΚΩ 4V₂ 1000 Ic betermine the value of RL value that allows the maximum power transfer from the scuit to the load.

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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For the circuit in the figure using the node analysis methodology. a 1mA www 2 k V, 1kn la. Find the value of the Thévenin voltage b. Find the value of the Norton current IN 3 kn 4V₂ 1000 c betermine the value of RL value that allows the maximum power transfer from the scuit to the load.
Transcribed Image Text:For the circuit in the figure using the node analysis methodology. a 1mA www 2 k V, 1kn la. Find the value of the Thévenin voltage b. Find the value of the Norton current IN 3 kn 4V₂ 1000 c betermine the value of RL value that allows the maximum power transfer from the scuit to the load.
Expert Solution
Step 1: Stating the given data

Given circuit:

Electrical Engineering homework question answer, step 1, image 1

Asked to find the 

  1. Find Thevenin's voltage across terminals a,b using nodal analysis
  2. Find  Norton's current through terminals a,b using nodal analysis
  3. To get maximum power in RL find the value of RL
steps

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