# Find the value of the resistor R in the circuit shown below if the transfer function of the circuit is S/S+5

1.  10

2.  25?

3.  50?

4.  12.5?

4

25?

Explanation :
No Explanation available for this question

# Find the driving point impedance of the circuit shown below

1.  20(s+2)/S2+2s+4

2.  10(s+2)/ S2+2s+4

3.  5(s+2)/ S2+2s+4

4.  50(s+2)/ S2+2s+4

4

20(s+2)/S2+2s+4

Explanation :
No Explanation available for this question

# Find the transfer function or circuit shown below

1.  s+(1/s)

2.  1/(s+1)

3.  2+(1/s)

4.  2s/(s+1)

4

1/(s+1)

Explanation :
No Explanation available for this question

# The pole-zero plot of the transfer function of a circuit is shown below and T(0)=4. Find the transfer function

1.  4(S+3)/S2+2S+3

2.  3(S+3)/ S2+2S+3

3.  4(S+2)/ S2+3S+3

4.  3(S+2)/ S2+3S+3

4

4(S+3)/S2+2S+3

Explanation :
No Explanation available for this question

# For the driving point impedance function N(S)=P(S)/Q(S) the coefficients of the polynomials P(S) and Q(S) must be

1.  Imaginary and Negative

2.  Imaginary and positive

3.  Real and positive

4.  Real and Negative

4

Real and positive

Explanation :
No Explanation available for this question

# The complex or imaginary poles of driving point impedance can be which of the following in numbers in total

1.  3

2.  4

3.  5

4.  1

4

4

Explanation :
No Explanation available for this question

# For the transfer function N(S)=P(S)/Q(S) of the polynomials, P(S) must be

1.  Real and positive

2.  Imaginary and Negative

3.  Real and Positive or Negative

4.  Imaginary and Positive

4

Real and positive

Explanation :
No Explanation available for this question

# The pole-zero configurations of the driving point impedance of a series resonant circuit on S-plane is

1.

2.

3.

4.

4 Explanation :
No Explanation available for this question

# The impulse response of a system whose transfer function is given as T(S)=1/(S+1)(S+2) is

1.  (1/2)e-t-e-2t

2.   e-t-(1/2)e-2t

3.  e-t-e-2t

4.  2e-t-e-2t

4

e-t-e-2t

Explanation :
No Explanation available for this question

1.  20

2.   2

3.  4

4.  10

4