Q.1
In the following circuit, the value of Norton’s resistance between terminals a and b are ___________
Questionnetwork-theory-questions-answers1.jpg
  • a) RN = 1800 Ω
  • b) RN = 270 Ω
  • c) RN = 90 Ω
  • d) RN = 90 Ω
Q.2
For the circuit shown in figure below, the value of Norton’s resistance is _________
Questionnetwork-theory-questions-answers2.jpg
  • a) 100 Ω
  • b) 136.4 Ω
  • c) 200 Ω
  • d) 272.8 Ω
Q.3
In the figure given below, the value of Resistance R by Norton’s Theorem is ___________
Questionnetwork-theory-questions-answers3.jpg
  • a) 40
  • b) 20
  • c) 50
  • d) 80
Q.4
In the figure given below, the Norton Resistance, as seen at the terminals P-Q, is given by __________
Questionnetwork-theory-questions-answers4.jpg
  • a) 5 Ω
  • b) 7.5 Ω
  • c) 5 Ω
  • d) 7.5 Ω
Q.5
In the circuit given below, it is given that VAB = 4 V for RL =kΩ and VAB = 1 V for RL = 2kΩ. The value of Norton resistance for the network N is ____________
Questionnetwork-theory-questions-answers5.jpg
  • a) 16 kΩ
  • b) 30 kΩ
  • c) 3 kΩ
  • d) 50 kΩ
Q.6
For the circuit given below, the Norton’s resistance across the terminals A and B is _____________
Questionnetwork-theory-questions-answers6.jpg
  • a) 5 Ω
  • b) 7 kΩ
  • c) 1.5 kΩ
  • d) 1.1 kΩ
Q.7
A circuit is given in the figure below. The Norton equivalent as viewed from terminals x and x’ is ___________
Questionnetwork-theory-questions-answers7.jpg
  • a) 6 Ω and 1.333 A
  • b) 6 Ω and 0.833 A
  • c) 32 Ω and 0.156 A
  • d) 32 Ω and 0.25 A
Q.8
For the circuit given in figure below, the Norton equivalent as viewed from terminals y and y’ is _________
Questionnetwork-theory-questions-answers8.jpg
  • a) 32 Ω and 0.25 A
  • b) 32 Ω and 0.125 A
  • c) 6 Ω and 0.833 A
  • d) 6 Ω and 1.167 A
Q.9
In the figure given below, the power loss in 1 Ω resistor using Norton’s Theorem is ________
Questionnetwork-theory-questions-answers9.jpg
  • a) 9.76 W
  • b) 9.26 W
  • c) 10.76 W
  • d) 11.70 W
Q.10
The value of RN from the circuit given below is ________
Questionnetwork-theory-questions-answers10.jpg
  • a) 3 Ω
  • b) 1.2 Ω
  • c) 5 Ω
  • d) 12.12 Ω
Q.11
The current I, as shown in the figure below, is ________
Questionnetwork-theory-questions-answers11.jpg
  • a) 3 A
  • b) 2 A
  • c) 1 A
  • d) 0
Q.12
While computing the Norton equivalent resistance and the Norton equivalent current, which of the following steps are undertaken?
Questionnetwork-theory-questions-answers12.jpg
  • a) Both the dependent and independent voltage sources are short-circuited and both the dependent and independent current sources are open-circuited
  • b) Both the dependent and independent voltage sources are open-circuited and both the dependent and independent current sources are short-circuited
  • c) The dependent voltage source is open-circuited keeping the independent voltage source untouched and the dependent current source is short-circuited keeping the independent current source untouched
  • d) The dependent voltage source is short-circuited keeping the independent voltage source untouched and the dependent current source is open-circuited keeping the independent current source untouched
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