Norton's Theorem Exam, Exams of Circuit Theory

The documents contain some circuit and a correct solution and answers. The circuit is solved using the Norton's theorem.

Typology: Exams

2020/2021

Available from 10/14/2021

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Assignment 1S
Nortons Theorem
Name: JONEHSA F. YUCOR
Fill-in the blanks and show your solution. You may take photo of your solution and submit it
together with your answer.
Problem Solving
I. From the given circuit calculate the following using Nortons Theorem. Fill-in the
blanks. Assume any values for standard resistors (from 100Ω to 1 ) and let E1 = 10
V, E2 = 20 V, and RL = R3.
Step 1: Fill-in the blanks with your assumed value of resistor
Step 2: Draw the simplifed circuit according to Nortons Theorem.
Step 3: Fill-in the blanks with your computed RN and IN.
Paste your solutions here:
E1E2
Assume
d
Resisto
r
Resistance
R1100
R2150
R3200
RN60 ohms
IN233.33333333 mA
pf3
pf4

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Assignment 1S Norton’s Theorem Name: JONEHSA F. YUCOR Fill-in the blanks and show your solution. You may take photo of your solution and submit it together with your answer. Problem Solving I. From the given circuit calculate the following using Norton’s Theorem. Fill-in the blanks. Assume any values for standard resistors (from 100Ω to 1 kΩ) and let E 1 = 10 V, E 2 = 20 V, and RL = R 3. Step 1: Fill-in the blanks with your assumed value of resistor Step 2: Draw the simplifed circuit according to Norton’s Theorem. Step 3: Fill-in the blanks with your computed RN and IN. Paste your solutions here:

E 1 E 2

Assume d Resisto r Resistance R 1 100 R 2 150 R 3 200 RN 60 ohms IN 233.33333333 mA

Step 4: Fill – in the blanks with the voltage across each resistor Paste your solutions here: II. From the given circuit calculate the following using Norton’s Theorem. Fill-in the blanks. Assume any values for standard resistors (from 100Ω to 1 kΩ) and let E 1 = 10 V, E 2 = 20 V, and RL = R 2. Step 1: Fill-in the blanks with your assumed value of resistor Step 2: Draw the simplifed circuit according to Norton’s Theorem.

E 2

E 1

Resistance Voltage, V R 1 769. mV R 2 9.230769231 V R 3 10.76923077 V Assume d Resisto r Resistance R 1 100 R 2 150 R 3 200

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