# For the given circuit shown find transmission line parameter A.

1.  s2+6s+4/s2+4s+4

2.  s2+10s+8/s2+8s+8

3.   s2+8s+8/s2+6s+8

4.  s2+6s+8/s2+10s+8

4

s2+6s+4/s2+4s+4

Explanation :
No Explanation available for this question

# The value of transmission line parameter B is

1.  4(s+6)/s2+6s+8

2.   2(s+6)/s2+6s+8

3.  4(s+6)/s2+10s+8

4.  2(s+6)/s2+10s+8

4

2(s+6)/s2+6s+8

Explanation :
No Explanation available for this question

# Find transfer function of the given network

1.  (s+1)2/s2+2s+3

2.  (s+1)2/s2+3s+1

3.  (s+1)/s2+3s+1

4.  (s+1)/s2+2s+3

4

(s+1)2/s2+3s+1

Explanation :
No Explanation available for this question

# The voltage transfer ratio of two-port network connected in series may be obtained from

1.  Sum of z-parameters of the two networks

2.  Sum of h-parameters of the two networks

3.   Product oF individual ABCD matrices of the matrices

4.  Product of voltage transfer ratios of the two individual networks

4

Product oF individual ABCD matrices of the matrices

Explanation :
No Explanation available for this question

# Find transfer function of the given network

1.  s+2/2s2+1

2.  (s+1)2/2s2+1

3.  (s+1)2/3s2+1

4.  (s2+1)/2s2+1

4

(s2+1)/2s2+1

Explanation :
No Explanation available for this question

# A two-port network is symmetric if

1.  z11z22-z12z21=1

3.  h11h22-h12h21=1

4.  y11y22-y12y21=1

4

h11h22-h12h21=1

Explanation :
No Explanation available for this question

# Which of the following pairs is correctly matched

2.  Reciprocal two-port network:z11=z12

3.  Inverse hybrid parameter: A, B, C, D

4.  Hybrid parameter :(V1, I2)=f(I1, V2)

4

Hybrid parameter :(V1, I2)=f(I1, V2)

Explanation :
No Explanation available for this question

# Find driving point impedance

1.   s2+2s+2/s2+s+1

2.  2s2+1/s(3s2+2)

3.  s2+s+2/s2+2s+2

4.  s2+s+2/s2+s+1

4

2s2+1/s(3s2+2)

Explanation :
No Explanation available for this question

# Y parameter matrix for the network shown below is

1.

2.

3.

4.

4 Explanation :
No Explanation available for this question

# The short-circuit admittance matrix of the network shown in figure is

1.

2.

3.

4.

4 