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

Networks Analysis And Synthesis
For maximum transfer of power, internal resistance of the source should be

Less than the load resistance

None of these

Greater than the load resistance

Equal to load resistance

Less than the load resistance

None of these

Greater than the load resistance

Equal to load resistance

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Networks Analysis And Synthesis
Kirchhoff s law is not applicable to circuits with

Passive elements

Lumped parameters

Distributed parameters

Non-linear resistances

Passive elements

Lumped parameters

Distributed parameters

Non-linear resistances

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Networks Analysis And Synthesis
Kirchhoff’s current law is applicable to only

Electronic circuits

Junction in a network

Closed loops in a network

Electric circuits

Electronic circuits

Junction in a network

Closed loops in a network

Electric circuits

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Networks Analysis And Synthesis
Application of Norton’s theorem to a circuit yields

Equivalent current source and impedance in series

Equivalent current source and impedance in parallel

Equivalent impedance

Equivalent current source

Equivalent current source and impedance in series

Equivalent current source and impedance in parallel

Equivalent impedance

Equivalent current source

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Networks Analysis And Synthesis
Kirchhoff’s voltage law applies to circuits with

Linear elements only

Linear, nonlinear, active, passive, time varying as wells as time-invariant elements

Nonlinear elements only

Linear, nonlinear, active and passive elements

Linear elements only

Linear, nonlinear, active, passive, time varying as wells as time-invariant elements

Nonlinear elements only

Linear, nonlinear, active and passive elements

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Networks Analysis And Synthesis
For a voltage source

Terminal voltage is always lower than source e.m.f.

None of these

The source e.m.f. and terminal voltage are equal

Terminal voltage cannot be higher than source e.m.f.

Terminal voltage is always lower than source e.m.f.

None of these

The source e.m.f. and terminal voltage are equal

Terminal voltage cannot be higher than source e.m.f.

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Networks Analysis And Synthesis

Networks Analysis And Synthesis For maximum transfer of power, internal resistance of the source should be

Networks Analysis And Synthesis Kirchhoff s law is not applicable to circuits with

Networks Analysis And Synthesis Kirchhoff’s current law is applicable to only

Networks Analysis And Synthesis Application of Norton’s theorem to a circuit yields

Networks Analysis And Synthesis Kirchhoff’s voltage law applies to circuits with

Networks Analysis And Synthesis For a voltage source

Networks Analysis And Synthesis
For maximum transfer of power, internal resistance of the source should be

Networks Analysis And Synthesis
Kirchhoff s law is not applicable to circuits with

Networks Analysis And Synthesis
Kirchhoff’s current law is applicable to only

Networks Analysis And Synthesis
Application of Norton’s theorem to a circuit yields

Networks Analysis And Synthesis
Kirchhoff’s voltage law applies to circuits with

Networks Analysis And Synthesis
For a voltage source