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Here, you are going to use Thévenin’s theorem to find Vo, before that, you must answer the following questions step by step... if Vs=100 Volt; R1=10K ohm; R2=13K Ohm and Ro=20K ohm; answer the following: After opening the circuit around Ro, the value of the current Ix (A) at this step is: Answer 1 Choose... After opening the circuit around Ro, and according the the value of Ix you got, the value of Vx (V) at this step is: Answer 2 Choose... Now, you can find the value of Vo.c. or V_thevenin (V) as: Answer 3 Choose... using the Test source method to find Rth, place a voltage source as a test source and make it’s value to be equal to Vs as stated in the problem (the polarity of the voltage source is (+) at the top and (-) at the bottom)... the value of the test source current I_test (A) is: Answer 4 Choose... Now, according to the test source method, the value of Rth (ohm) is: Answer 5 Choose... According to the thevenin equivalent circuit you got, the value of Vo is: Answer 6 Choose.

Here, you are going to use Thévenin’s theorem to find Vo, before that, you must answer the following questions step by step... if Vs=100 Volt; R1=10K ohm; R2=13K Ohm and Ro=20K ohm; answer the following: After opening the circuit around Ro, the value of the current Ix (A) at this step is: Answer 1 Choose... After opening the circuit around Ro, and according the the value of Ix you got, the value of Vx (V) at this step is: Answer 2 Choose... Now, you can find the value of Vo.c. or V_thevenin (V) as: Answer 3 Choose... using the Test source method to find Rth, place a voltage source as a test source and make it’s value to be equal to Vs as stated in the problem (the polarity of the voltage source is (+) at the top and (-) at the bottom)... the value of the test source current I_test (A) is: Answer 4 Choose... Now, according to the test source method, the value of Rth (ohm) is: Answer 5 Choose... According to the thevenin equivalent circuit you got, the value of Vo is: Answer 6 Choose.

Introductory Circuit Analysis (13th Edition)
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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Here, you are going to use Thévenin’s theorem to find Vo, before that, you must answer the following questions step by step...

if Vs=100 Volt; R1=10K ohm; R2=13K Ohm and Ro=20K ohm; answer the following:


After opening the circuit around Ro, the value of the current Ix (A) at this step is:


Answer 1
Choose...
After opening the circuit around Ro, and according the the value of Ix you got, the value of Vx (V) at this step is:


Answer 2
Choose...
Now, you can find the value of Vo.c. or V_thevenin (V) as:


Answer 3
Choose...
using the Test source method to find Rth, place a voltage source as a test source and make it’s value to be equal to Vs as stated in the problem (the polarity of the voltage source is (+) at the top and (-) at the bottom)... the value of the test source current I_test (A) is:


Answer 4
Choose...
Now, according to the test source method, the value of Rth (ohm) is:


Answer 5
Choose...
According to the thevenin equivalent circuit you got, the value of Vo is:


Answer 6
Choose...

V R1 R2 Ix Vo Ro Vs V,
Transcribed Image Text:V R1 R2 Ix Vo Ro Vs V,
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