Tellegens theorem is applicable inA. Linear and passive network

B. Linear and active networks

C. Non-linear Networks

D. Any networkD

Millmans theorem

A. Any no of series voltage sources are converted to a single voltage source

B. Any no of parallel voltage sources are converted to a single voltage source

C. Several parallel connected current sources are replace by a single equivalent current source

D. None of these

B

Reciprocity theorem is applicable to

A. Single source networks

B. Multi source networks

C. Both a and b

D. All linear-nonlinear networks with multiple sources

A

Super position theorem is applicable in

A. Only ac networks

B. Only dc networks

C. ac and dc networks both

D. calculation of PowerC

tellegens theorem is related to

A. conservation of active power in network

B. conservation of reactive power of the circuit

C. both a and b

D. None

C

In the networks containing dependent sources onlyA. Vth = 0 , IN =0

B. Vth = IN X Z thC. Both

D. None

C

Voltage across a branch in a network is given as v(t) = 100 e-7t sin 25t. frequency of voltage in complex domain is

A. 7+ 25 j

B. 25+ 7 j

C. -7+ 25 j

D. 25 -7 j

C

G12(s) represents

A. Current ratio transfer ratio transfer function

B. Driving point function

C. Voltage ratio function

D. Transfer Immitance function

C

For a driving point function

A. Degree of numerator and denominator may differ by zero or one only

B. Maximum Degree of numerator and denominator must be same

C. Numerator polynomial may of negative real coeffiecient

D. Zeros can lie on RHS of complex plane

A

For a transfer function

A. Numerator polynomial must contain positive real coefficiets

B. Numerator polynomial may contain negative coefficients

C. Denominator polynomial may contain negative coefficients

D. Poles may lie on the RHS of the S-plane

B