1 Crore+ students have signed up on EduRev. Have you? Download the App 
The ratio of the transfer function Io/Is is
The voltage across 200 μF capacitor is given by
The steady state voltage across capacitor is
The transformed voltage across the 60 μF capacitor is given by
The initial current through capacitor is
The current through an 4 H inductor is given by
The initial voltage across inductor is
The amplifier network shown in fig.is stable if
A circuit has a transfer function with a pole s = 4 and a zero which may be adjusted in position as s= a The response of this system to a step input has a term of form Ke^{ 4t}. The K will be (H= scale factor)
A circuit has input v_{in }(t) = cos 2t u(t) V and output i_{o }(t) = 2sin 2t u(t) A. The circuit had no internal stored energy at t = 0. The admittance transfer function is
A two terminal network consists of a coil having an inductance L and resistance R shunted by a capacitor C. The poles of the driving point impedance function Z of this network are at and zero at 1. If Z(0) =1the value of R, L, C are
The current response of a network to a unit step input is
The response is
The circuit is shown in fig.
The current ratio transfer function I_{o}/I_{S IS}
The circuit is shown in fig.
The response is
The circuit is shown in fig.
If input i_{s} is 2u(t) A, the output current i_{o} is
In the network of Fig. , all initial condition are zero. The damping exhibited by the network is
The voltage response of a network to a unit step input is
The response is
The response of an initially relaxed circuit to a signal v_{s} is e^{2t }u(t). If the signal is changed to , the response would be
Consider the following statements in the circuit shown in fig.
1. It is a first order circuit with steady state value of v_{C}= 10/3, i = 5/3A
2. It is a second order circuit with steady state of v_{C }= 2 V , i = 2 A
3. The network function V(s)/I(s)has one pole.
4. The network function V(s)/I(s) has two poles.
23 docs263 tests

23 docs263 tests
