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demo11
Question 1
In the network shown below, the value of current i in 14 Ω resistor will be:
1 A
2/3 A
0 A
3/5 A
Question 2
Consider the circuit shown in figure below:
What will be the value of capacitor ’C’ when it is transformed from star to delta connection?
9 F
3 F
1 F
6 F
Question 3
Consider a network shown in figure below. Find the equivalent resistance (Req) between the terminals a and b is _______ (in Ω, in integer).
1
Question 4
For the following circuit shown in figure below, which of the following statement is/are correct?
The value of C = 9 μF such that the current from source has a peak value of 0.24 A.
The value of C = 3 μF such that the current from source has a peak value of 0.25 A.
Equivalent capacitance across the terminal is 2.4 μF.
Equivalent capacitance across the terminal is 2.25 μF.
Question 5
A certain practical DC voltage source can provide a current of 2.5 A when its terminals are short-circuited and can provide a power of 80 W to 20 Ω load. The maximum power it could deliver to a well-chosen load resistance RL is _______(in Watts, in integer).
125
Question 6
Find the voltage at point ‘P’ in the circuit shown in figure below: (If the value of each resistor in star-connection is
20/3 Ω).
-20 A
-23 A
-25 A
-18 A
Question 7
In the circuit below, the current excitation is is(t) = 8u(-t) A.
The current iL(t) for (t ≥ 0) is-
(4 – 4e-5000t) A
4e-5000t A
(4 – 4e-20000t) A
4e-20000t A
Question 8
In the below circuit, the current in 8 Ω resistor is ________ (in A, round off to 2 decimal places).
0.25
Question 9
Two network, N1 & N2 are described graphically in terms of their i–v relations & connected through a single resistor as shown. The current flowing through the circuit after connection is
5mA
0mA
-5mA
2mA
Question 10
Find the current i (in A, in integer) when the network N is satisfying the reciprocity theorem.
2
There are 14 questions to complete.