Practice Networks Analysis And Synthesis Multiple Choice Questions Quiz-1 - MCQGeeks.com

Q.1

For high efficiency of transfer of power, internal resistance of the source should be

Equal to the load resistance
Less than the load resistance
More than the load resistance
None of the above

Q.2

For maximum transfer of power, internal resistance of the source should be

Equal to load resistance
Less than the load resistance
Greater than the load resistance
None of the above

Q.3

A delta circuit has each element of value R/2. The equivalent elements of star circuit with be

RIG
R/3
2R
3R

Q.4

“Maximum power output is obtained from a network when the load resistance is equal to the output resistance of the network as seen terminals of the load”. The above statement is associated with

Millman’s theorem
Thevenin’s theorem
Superposition theorem
Maximum power transfer theorem

Q.5

The circuit has resistors, capacitors and semiconductor diodes. The circuit will be known as

Nonlinear circuit
Linear circuit
Bilateral circuit
None of the above

Q.6

A linear resistor having 0 < R < °o is a

current controlled resistor
voltage controlled resistor
both current controlled and voltage controlled resistor
none of the above

Q.7

“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

Compensation theorem
Superposition theorem
Reciprocity theorem
None of the above

Q.8

“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

Thevenin’s theorem
Norton’s theorem
Superposition theorem
None of the above

Q.9

Superposition theorem can be applied only to circuits having

Resistive elements
Passive elements
Nonlinear elements
Linear bilateral elements

Q.10

Which of the following is the passive element?

Capacitance
Ideal current source
Ideal voltage source
All of the above

Q.11

A passive network is one which contains

Only variable resistances
Only some sources of e.m.f. in it
Only two sources of e.m.f. in it
No source of e.m.f. in it

Q.12

If the energy is supplied from a source, whose resistance is 1 ohm, to a load of 100 ohms the source will be

A voltage source
A current source
Both of above
None of the above

Q.13

In Thevenin’s theorem, to find Z

All independent current sources are short circuited and independent voltage sources are open circuited
All independent voltage sources are open circuited and all independent current sources are short circuited
All independent voltage and current sources are short circuited
All independent voltage sources are short circuited and all independent current sources are open circuited

Q.14

The superposition theorem is applicable to

Linear, nonlinear and time variant responses
Linear and nonlinear resistors only
Linear responses only
None of the above

Q.15

Kirchhoff s current law states that

Net current flow at the junction is positive
Hebraic sum of the currents meeting at the junction is zero
No current can leave the junction without some current entering it
Total sum of currents meeting at the junction is zero

Q.16

Millman’s theorem yields

Equivalent resistance
Equivalent impedance
Equivalent voltage source
Equivalent voltage or current source

Q.17

While calculating R^th in Thevenin’s theorem and Norton equivalent

All independent sources are made dead
Only current sources are made dead
Only voltage sources are made dead
All voltage and current sources are made dead

Q.18

To determine the polarity of the voltage drop across a resistor, it is necessary to know

Value of current through the resistor
Direction of current through the resistor
Value of resistor
E.m.f. in the circuit

Q.19

Thevenin resistance Rth is found

by removing voltage sources along with their internal resistances
by short-circuiting the given two terminals
between any two ‘open’ terminals
between same open terminals as for Etk

Q.20

Kirchhoff’s voltage law is related to

Junction currents
Battery e.m.f.
IR drops
Both B and C

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