Q.1
Consider the impedance function Z(s)=3(s+2)(s+4)/(s+1)(s+3). Find the value of R1 after realizing by first Foster method.
  • a) 9/2
  • b) 2/9
  • c) 9
  • d) 1/9
Q.2
Consider the impedance function Z(s)=3(s+2)(s+4)/(s+1)(s+3). Find the value of C1 after realizing by first Foster method.
  • a) 1/9
  • b) 9
  • c) 2/9
  • d) 9/2
Q.3
Consider the impedance function Z(s)=3(s+2)(s+4)/(s+1)(s+3). Find the value of C2 after realizing by first Foster method.
  • a) 1/3
  • b) 3
  • c) 3/2
  • d) 2/3
Q.4
Consider the impedance function Z(s)=3(s+2)(s+4)/(s+1)(s+3). Find the value of R2 after realizing by first Foster method.
  • a) 1
  • b) 1/2
  • c) 1/4
  • d) 1/8
Q.5
Consider the impedance function Z(s)=3(s+2)(s+4)/(s+1)(s+3). Find the value of R∞ after realizing by first Foster method.
  • a) 1
  • b) 2
  • c) 3
  • d) 4
Q.6
Consider the impedance function Y(s)=(s2+4s+3)/(3s2+18s+24). Find the value of R0 after realizing by second Foster method.
  • a) 4
  • b) 8
  • c) 12
  • d) 16
Q.7
Consider the impedance function Y(s)=(s2+4s+3)/(3s2+18s+24). Find the value of R1 after realizing by second Foster method.
  • a) 16
  • b) 12
  • c) 8
  • d) 4
Q.8
Consider the impedance function Y(s)=(s2+4s+3)/(3s2+18s+24). Find the value of C1 after realizing by second Foster method.
  • a) 1/24
  • b) 1/12
  • c) 1/6
  • d) 1/3
Q.9
Consider the impedance function Y(s)=(s2+4s+3)/(3s2+18s+24). Find the value of R2 after realizing by second Foster method.
  • a) 5
  • b) 6
  • c) 7
  • d) 8
Q.10
Consider the impedance function Y(s)=(s2+4s+3)/(3s2+18s+24). Find the value of C2 after realizing by second Foster method.
  • a) 1/16
  • b) 1/8
  • c) 1/32
  • d) 1/64
0 h : 0 m : 1 s