Synthesis of R-L Network by Cauer Method MCQ’s

Electronics & Communication Engineering Network Theory

This set of Network Theory Multiple Choice Questions & Answers (MCQs) focuses on “Synthesis of R-L Network by Cauer Method”.

1. Consider the impedance function, Z(s)=((s+4)(s+8))/((s+2)(s+6)). Find the value of L2 after converting into first Cauer form.
a) 1
b) 1/2
c) 1/4
d) 1/8

2. Consider the impedance function, Z(s)=((s+4)(s+8))/((s+2)(s+6)). Find the value of R2 after converting into first Cauer form.
a) 1/4
b) 2/4
c) 3/4
d) 4/4

3. Consider the impedance function, Z(s)=((s+4)(s+8))/((s+2)(s+6)). Find the value of R1 after converting into first Cauer form.
a) 1
b) 2
c) 3
d) 4

4. Consider the impedance function, Z(s)=((s+4)(s+8))/((s+2)(s+6)). Find the value of L3 after converting into first Cauer form.
a) 4/3
b) 3/4
c) 4/5
d) 5/4

5. Consider the impedance function, Z(s)=(2s2+8s+6)/(s2+8s+12). Find the value of R1 after converting into second Cauer form.
a) 1
b) 3/4
c) 1/2
d) 1/4

6. Consider the impedance function, Z(s)=(2s2+8s+6)/(s2+8s+12). Find the value of R2 after converting into second Cauer form.
a) 6/7
b) 7/6
c) 7/8
d) 8/7

7. Consider the impedance function, Z(s)=((s+4)(s+8))/((s+2)(s+6)). Find the value of R3 after converting into first Cauer form.
a) 4
b) 3
c) 2
d) 1

8. Consider the impedance function, Z(s)=(2s2+8s+6)/(s2+8s+12). Find the value of L1 after converting into second Cauer form.
a) 1/3
b) 2/3
c) 3/3
d) 4/3

9. Consider the impedance function, Z(s)=(2s2+8s+6)/(s2+8s+12). Find the value of L2 after converting into second Cauer form.
a) 5/50
b) 10
c) 5/49
d) 49/5

10. Consider the impedance function, Z(s)=(2s2+8s+6)/(s2+8s+12). Find the value of R3 after converting into second Cauer form.
a) 1/5
b) 14/5
c) 5/14
d) 5

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