A. Constant current source
B. Constant voltage source
C. Capacitance
D. None of the above
Related Mcqs:
- “In any linear bilateral network, if a source of e.m.f. E in any branch produces a current I in any other branch, then same e.m.f. acting in the second branch would produce the same current / in the first branch”.
The above statement is associated with
A. compensation theorem
B. superposition theorem
C. reciprocity theorem
D. none of the above - Which of the following is the passive element?
A. Capacitance
B. Ideal current source
C. Ideal voltage source
D. All of the above - A star circuit has element of resistance R/2. The equivalent delta elements will be_____________?
A. R/6
B. fi?
C. 2R
D. 4R - Which of the following is non-linear circuit parameter?
A. Inductance
B. Condenser
C. Wire wound resistor
D. Transistor - If the energy is supplied from a source, whose resistance is 1 ohm, to a load of 100 ohms the source will be___________?
A. a voltage source
B. a current source
C. both of above
D. none of the above - The superposition theorem is applicable to____________?
A. linear, non-linear and time variant responses
B. linear and non-linear resistors only
C. linear responses only
D. none of the above - A capacitor is generally a____________?
A. bilateral and active component
B. active, passive, linear and nonlinear component
C. linear and bilateral component
D. non-linear and active component - A closed path made by several branches of the network is known as____________?
A. branch
B. loop
C. circuit
D. junction - Kirchhoffs current law is applicable to only
A. junction in a network
B. closed loops in a network
C. electric circuits
D. electronic circuits - “In any network containing more than one sources of e.m.f. the current in any branch is the algebraic sum of a number of individual fictitious currents (the number being equal to the number of sources of e.m.f.), each of which is due to separate action of each source of e.m.f., taken in order, when the remaining sources of e.m.f. are replaced by conductors, the resistances of which are equal to the internal resistances of the respective sources”. The above statement is associated with:
A. Thevenin’s theorem
B. Norton’s theorem
C. Superposition theorem
D. None of the above