Question

For the following circuit a source of V1(t) = e^(-2t) is applied, then the resulting response V2(t) is given by

a.

A

b.

B

c.

C

d.

D

Answer: (c).C

Interact with the Community - Share Your Thoughts

Uncertain About the Answer? Seek Clarification Here.

Understand the Explanation? Include it Here.

Q. For the following circuit a source of V1(t) = e^(-2t) is applied, then the resulting response V2(t) is given by

Similar Questions

Explore Relevant Multiple Choice Questions (MCQs)

Q. In figure, the current I4 is

Q. For the circuit shown in the figure, the current I is

Q. The current voltage relation for an inductance L is

Q. In figure, the steady state current through 1H inductance is

Q. Impedance Z as shown in the given figure is

Q. In figure, the value of R should be

Q. In figure the open circuit emf is

Q. If

Q. The pole zero diagram of an impedance Z has a pole at s = - 6 and zero at s = - 4 as shown in figure the constant multiplier k = 1. For a signal Is = cos 6t, the steady state voltage across Z is given in magnitude as under

Q. In the circuit of figure the current through 5 Ω resistance at t = 0+ is

Q. v-i relation for a capacitor is

Q. The time constant of the circuit in figure is

Q. The damping coefficient for the given circuit is __________

Q. For the ladder network of figure, open circuit driving point impedance at port 1 =

Q. If Va0, Va1, Va2 are sequence components of Va and Ia0, Ia1, Ia2 are sequence components of Ia, then total 3 phase power P is given by

Q. In the circuit of figure the current through 3 Ω resistance at t = 0+ is

Q. Assertion (A): For networks in figure (1) and (2) sum of products of branch voltages and branch currents at any time is zero.

Reason (R): The networks in figure (1) and (2) are not the same structurally.

Q. In the circuit of figure the switch is open for a long time, At t = 0 the switch is closed. At t = 0+ the current supplied by battery is

Q. An RL series circuit is initially relaxed. A step voltage E is applied. If t is time constant, voltage across R and L will be equal at t =

Q. For the two port of figure, z11 is

Recommended Subjects

Are you eager to expand your knowledge beyond Electronics and Communication Engineering? We've handpicked a range of related categories that you might find intriguing.

Click on the categories below to discover a wealth of MCQs and enrich your understanding of various subjects. Happy exploring!