Kirchhoff’s current law is applicable to only

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

Junction in a network

Closed loops in a network

Electric circuits

Electronic circuits

Junction in a network

Closed loops in a network

Electric circuits

Electronic circuits

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Networks Analysis And Synthesis
According to Kirchhoff’s voltage law, the algebraic sum of all IR drops and e.m.f. in any closed loop of a network is always

Positive

Negative

Zero

Determined by battery e.m.f.

Positive

Negative

Zero

Determined by battery e.m.f.

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

Equal to the load resistance

More than the load resistance

None of these

Less than the load resistance

Equal to the load resistance

More than the load resistance

None of these

Less than the load resistance

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Networks Analysis And Synthesis
Between the branch voltages of a loop the Kirchhoff's voltage law imposes

Linear constraints

None of these

Nonlinear constraints

No constraints

Linear constraints

None of these

Nonlinear constraints

No constraints

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

Equivalent impedance

Equivalent current source

Equivalent current source and impedance in parallel

Equivalent current source and impedance in series

Equivalent impedance

Equivalent current source

Equivalent current source and impedance in parallel

Equivalent current source and impedance in series

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Networks Analysis And Synthesis
“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

None of these

Reciprocity theorem

Compensation theorem

Superposition theorem

None of these

Reciprocity theorem

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Networks Analysis And Synthesis

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

Networks Analysis And Synthesis According to Kirchhoff’s voltage law, the algebraic sum of all IR drops and e.m.f. in any closed loop of a network is always

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

Networks Analysis And Synthesis Between the branch voltages of a loop the Kirchhoff's voltage law imposes

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

Networks Analysis And Synthesis “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

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

Networks Analysis And Synthesis
According to Kirchhoff’s voltage law, the algebraic sum of all IR drops and e.m.f. in any closed loop of a network is always

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

Networks Analysis And Synthesis
Between the branch voltages of a loop the Kirchhoff's voltage law imposes

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

Networks Analysis And Synthesis
“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