Question
1. H(s) cannot have a pole at s = 0
2. H(s) cannot have a pole at s = ± j4
3. H(s) cannot have a pole at s = ∞
4. H(s) cannot have a pole at s = + 2
Of these statements
a.
3 and 4 are correct
b.
2 and 4 are correct
c.
1 and 2 are correct
d.
1 and 3 are correct
Posted under Electronics and Communication Engineering
Interact with the Community - Share Your Thoughts
Uncertain About the Answer? Seek Clarification Here.
Understand the Explanation? Include it Here.
Q. For a voltage transfer function H(s), realizable by RLC network, the following statements are made 1. H(s) cannot have a pole at s = 0 2. H(s) cannot have a pole at s = ±...
Similar Questions
Explore Relevant Multiple Choice Questions (MCQs)
Q. Nichrome is commonly used for
View solution
Q. Thevenin's equivalent circuit
View solution
Q. A series RC circuit has fixed R and C and variable f. The current locus will lie in the first quadrant.
View solution
Q. Which of the following statement is false?
View solution
Q. The two conductors of a single phase transmission line suspended in air carry currents in opposite directions. The force per unit length on each conductor varies
View solution
Q. Which of the following is correct?
View solution
Q. The transfer function G12 (s) for a two port is
View solution
Q. In drawing phasor diagrams, RMS values are used.
View solution
Q. If two networks are connected in parallel then equivalent y parameter of both is
View solution
Q. RMS value is always higher than average value.
View solution
Q. When R and L are connected in parallel, R > |Z|.
View solution
Q. As B is increased from zero to about 2T, μᵣ, of a ferromagnetic material
View solution
Q. In open circuit impedance parameters, the independent variables are
View solution
Q. Lead becomes a superconductor at
View solution
Q. A second order system will have
View solution
Q. √L/C has the dimension of
View solution
Q. In metals, the flow of current is due to
View solution
Q. Two port network is said to be symmetrical if
View solution
Q. For a series resonant circuit at low frequency impedance is __________ and at high frequency circuit impedance is __________ .
View solution
Q. If Y(s) = 1 + s, the network has
View solution
Recommended Subjects
Are you eager to expand your knowledge beyond Electronics and Communication Engineering? We've handpicked a range of related categories that you might find intriguing.
Click on the categories below to discover a wealth of MCQs and enrich your understanding of various subjects. Happy exploring!
