Network Theory ...

In the circuit below, the current through E₂ is

Consider the given bridge network. The voltage V₀ is equal to _______ Volts.

For the networks shown below, what will be the resistance between the terminals A and B?

Consider the following circuit

Which of the following sets of E, R and C values will ensure that the state equation 

For the circuit of the given figure, the value of current I is

The value of R (in Ω) such that power supplied by voltage source to the network is the same as power supplied by current source is

Node voltages V_A and V_B as shown in the circuit below are:

During a battery charging process, the emf of the battery increases from 10 V to 12 V linearly over a period of 6 hours. The charging voltage is 15 V. A series connected resistor is continuously adjusted to maintain a constant current of 1 A. What is the energy wasted in the system assuming ideal charging source and ideal battery.

Find total power consumed in the circuit given-

In the given circuit, the parameter k is positive, and the power dissipated in the 2 Ω resistor is 8 W. The value of k is

In the circuit given below, viewed from a – b, the circuit can be reduced to an equivalent circuit as

What is the Thevenin resistance seen from the terminals AB of the circuit shown below in the figure – (in Ω)

For a network, Thevenin equivalent is given by V_th = 10 V and R_th = 50 Ω. If this network is shunted by another 50 Ω at load. What is the new Thevenin equivalent of the network?

In the following circuit, some measurements were made at the terminals a, b and are noted in the table below:

Which of the following conclusions is/are correct?

In the circuit shown in the figure, the voltage across the 2 Ω resistor is

According to super position theorem while considering 1 V voltage the circuit represent as

In the given circuit current through 12 Ω resistance is given by I = A I₁ + B I₂ + C V. The values of A, B and C are respectively

In case of max power transfer voltage drop across R_L is:

For what value of resistance across terminal A-B, the power transfer will be maximum?

Assuming both the voltage source and current source are in phase, the value of R in Ω for which maximum power is transferred from circuit A to circuit B.

An alternating voltage v(t) = 220 sin(100πt) volt is applied to a purely resistive load of 50 Ω. The time taken for the current to rise from half of the peak value to the peak value (in ms) is:

The voltage applied to a circuit is 100 √2 cos (100πt) volts and the circuit draws a current of 10 √2 sin (100πt + π / 4) amperes. Taking the voltage as the reference phasor, the phasor representation of the current in amperes is

A series Circuit Containing a circuit element has following current and applied voltage

V = 200 Sin (2000t + 50°) V

i = 4 cos (2000t + 13.2°) A

The element Comprising the circuit is

In RLC series circuit R = 2Ω, L = 2mH and C = 1μF and applied voltage is 10 V DC, then, what is steady state current value?

In the dc circuit shown in the figure, the node voltage V₂ (in V) at steady state is _____.