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PART A (5x2= 10)1. Define Phase velocity?2. Define Guided waves?
3. Define VG?
4. Give the relation between Velocity of Propagation, Phase velocity and group velocity?5. Define wave impedance?
PART A (5x2= 10)
1. Define Phase velocity?
2. Define Guided waves?
3. Define VG?
4. Give the relation between Velocity of Propagation, Phase velocity and group velocity?
5. Define wave impedance?
PART A (5x2= 10)
1. Define Phase velocity?
2. Define Guided waves?
3. Define VG?
4. Give the relation between Velocity of Propagation, Phase velocity and group velocity?
5. Define wave impedance?
PART A (5x2= 10)
1. Define Phase velocity?
2. Define Guided waves?
3. Define VG?
4. Give the relation between Velocity of Propagation, Phase velocity and group velocity?
5. Define wave impedance?
PART A (5x2= 10)
1. Define Phase velocity?
2. Define Guided waves?
3. Define VG?
4. Give the relation between Velocity of Propagation, Phase velocity and group velocity?
5. Define wave impedance?
PART A (5x2= 10)
1. Define Phase velocity?
2. Define Guided waves?
3. Define VG?
4. Give the relation between Velocity of Propagation, Phase velocity and group velocity?
5. Define wave impedance?
PART A (5x2= 10)
1. Define Phase velocity?
2. Define Guided waves?
3. Define VG?
4. Give the relation between Velocity of Propagation, Phase velocity and group velocity?
5. Define wave impedance?
PART A (5x2= 10)
1. Define Phase velocity?
2. Define Guided waves?
3. Define VG?
4. Give the relation between Velocity of Propagation, Phase velocity and group velocity?
5. Define wave impedance?
PART B (40 Marks)
1. Explain in detail about attenuation for TE waves in Parallel plane guides? (16)
2. Explain in detail about attenuation for TM, waves in Parallel plane guides? (16)
3. Explain in detail about attenuation for TEM waves in Parallel plane guides? (8)PART B (40 Marks)
4. Explain in detail about attenuation for TE waves in Parallel plane guides? (16)
5. Explain in detail about attenuation for TM, waves in Parallel plane guides? (16)
6. Explain in detail about attenuation for TEM waves in Parallel plane guides? (8)
PART B (40 Marks)
7. Explain in detail about attenuation for TE waves in Parallel plane guides? (16)
8. Explain in detail about attenuation for TM, waves in Parallel plane guides? (16)
9. Explain in detail about attenuation for TEM waves in Parallel plane guides? (8)
PART B (40 Marks)
10. Explain in detail about attenuation for TE waves in Parallel plane guides? (16)
11. Explain in detail about attenuation for TM, waves in Parallel plane guides? (16)
12. Explain in detail about attenuation for TEM waves in Parallel plane guides? (8)
PART B (40 Marks)
1. Explain in detail about attenuation for TE waves in Parallel plane guides? (16)
2. Explain in detail about attenuation for TM, waves in Parallel plane guides? (16)
3. Explain in detail about attenuation for TEM waves in Parallel plane guides? (8)
PART B (40 Marks)
1. Explain in detail about attenuation for TE waves in Parallel plane guides? (16)
2. Explain in detail about attenuation for TM, waves in Parallel plane guides? (16)
3. Explain in detail about attenuation for TEM waves in Parallel plane guides? (8)
PART B (40 Marks)
1. Explain in detail about attenuation for TE waves in Parallel plane guides? (16)
2. Explain in detail about attenuation for TM, waves in Parallel plane guides? (16)
3. Explain in detail about attenuation for TEM waves in Parallel plane guides? (8)
PART B (40 Marks)
1. Explain in detail about attenuation for TE waves in Parallel plane guides? (16)
2. Explain in detail about attenuation for TM, waves in Parallel plane guides? (16)
3. Explain in detail about attenuation for TEM waves in Parallel plane guides? (8)