SHORT ANSWER QUESTIONS
UNIT-I, NETWORK TOPOLOGY
1. Define the Planner Networks and Non-Planner networks.
2. Define the Mutual Inductance.
3. Define the self inductance
4. Define Faraday’s Laws of Electro Magnetic Induction?
5. Distinguish between self-inductance and mutual inductance.
6. What is the use of tie-set matrix of a network?
7. What is a fundamental cut set matrix?
8. What is an ideal transformer?
UNIT-II, TRANSIENT AND STEADY STATE ANALYSIS
1. Draw the admittance characteristics of a parallel resonant circuit
2. What is the behavior of Inductor in Initial and Steady state conditions?
3. What is the condition for resonance for an RLC series circuit?
4. Define the Planner Networks and Non-Planner networks.
5. Define Quality-factor and Selectivity.
6. What is the behavior of capacitor in Initial and Steady state conditions?
7. Define damping factor?
8. What is the bandwidth of a resonant circuit?
UNIT-III, TWO PORT NETWORK PARAMETERS
1. Define Two-port network.
2. What you mean by open circuit Impedance.
3. What is the condition for Symmetry in Z and Y parameters?
4. What are the properties of a driving point function?
5. Write the expressions for Y-parameters in terms of Z
6. What is the condition for Reciprocity in Z and Y parameters?
7. Write briefly about Characteristic Impedance
8. Write the expressions for Z-parameters in terms of Y
UNIT-IV, FILTERS AND ATTENUATORS
1. Draw the characteristics of Low-pass and High-pass filters.
2. Define Propagation constant.
3. Draw the block diagram of band-pass and band-elimination filters.
4. Draw the characteristics of Low-pass and High-pass filters.
5. List the de-merits of M-derived filters.
6. Differentiate between low pass and high pass filters
7. What are the characteristics of network equalizers?
8. Classify constant K-filters.
UNIT-V, NETWORK SYNTHESIS
1. Define Transfer admittance.
2. What is driving point admittance ?
3. What is driving point impedance?
4. Write the Non-ladder network.
5. What is network synthesis?
6. What is a positive real function?
7. Define transfer impedance.
8. Write the ladder network.
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