Q.1
The coefficients of the polynomials P (S) and Q (S) in the network function N (S) are ________ for passive network.
  • a) real and positive
  • b) real and negative
  • c) complex and positive
  • d) complex and negative
Q.2
The scale factor is denoted by the letter?
  • a) G
  • b) H
  • c) I
  • d) J
Q.3
The zeros in the transfer function are denoted by?
  • a) 3
  • b) 2
  • c) 1
  • d) 0
Q.4
The poles in the transfer function are denoted by?
  • a) x
  • b) y
  • c) z
  • d) w
Q.5
The network function N (S) becomes _________ when s is equal to anyone of the zeros.
  • a) 1
  • b) 2
  • c) 0
  • d) ∞
Q.6
The N (S) becomes ________ when s is equal to any of the poles.
  • a) ∞
  • b) 0
  • c) 1
  • d) 2
Q.7
If the poles or zeros are not repeated, then the function is said to be having __________ poles or ________ zeros.
  • a) simple, multiple
  • b) multiple, simple
  • c) simple, simple
  • d) multiple, multiple
Q.8
If the poles or zeros are repeated, then the function is said to be having __________ poles or ________ zeros.
  • a) multiple, multiple
  • b) simple, simple
  • c) multiple, simple
  • d) simple, multiple
Q.9
If the number of zeros (n) are greater than the number of poles (m), then there will be _________ number of zeros at s = ∞.
  • a) n
  • b) m
  • c) n-m
  • d) n+m
Q.10
If the number of poles (m) are greater than the number of zeros (n), then there will be _________ number of zeros at s = ∞.
  • a) m+n
  • b) m-n
  • c) m
  • d) n
0 h : 0 m : 1 s