MCQOPTIONS
Saved Bookmarks
MCQOPTIONS
This section includes 14 Mcqs, each offering curated multiple-choice questions to sharpen your Electromagnetic Theory knowledge and support exam preparation. Choose a topic below to get started.
| 1. |
A waveguide imitates which type of filter characteristics? |
| A. | Low pass filter |
| B. | High pass filter |
| C. | Band pass filter |
| D. | Band reject filter |
| Answer» C. Band pass filter | |
| 2. |
The exciter of the waveguide in a transmission line is the |
| A. | Transmitter |
| B. | Receiver |
| C. | Transponder |
| D. | Antenna |
| Answer» E. | |
| 3. |
The phase of the wave after the installation of the guided terminations will be |
| A. | 0 |
| B. | 45 |
| C. | 90 |
| D. | 180 |
| Answer» B. 45 | |
| 4. |
The cut off frequency of a waveguide with resonant cavity is given bya) V√((m/a)2 + (n/b)2 + (p/d)2)/2b) V√((m/a)2 + (n/b)2 + (p/d)2)c) 2V√((m/a)2 + (n/b)2 + (p/d)2)d) V√((m/ |
| A. | V√((m/a)2 + (n/b)2 + (p/d)2)/2b) V√((m/a)2 + (n/b)2 + (p/d)2)c) 2V√((m/a)2 + (n/b)2 + (p/d)2)d) V√((m/a) + (n/ |
| B. | 2 + (p/d)2)/2b) V√((m/a)2 + (n/b)2 + (p/d)2) |
| C. | 2V√((m/a)2 + (n/b)2 + (p/d)2)d) V√((m/a) + (n/b) + (p/ |
| D. | 2)/2b) V√((m/a)2 + (n/b)2 + (p/d)2)c) 2V√((m/a)2 + (n/b)2 + (p/d)2)d) V√((m/a) + (n/b) + (p/d))/2 |
| Answer» B. 2 + (p/d)2)/2b) V√((m/a)2 + (n/b)2 + (p/d)2) | |
| 5. |
THE_EXCITER_OF_THE_WAVEGUIDE_IN_A_TRANSMISSION_LINE_IS_THE?$ |
| A. | Transmitter |
| B. | Receiver |
| C. | Transponder |
| D. | Antenna |
| Answer» E. | |
| 6. |
A_waveguide_imitates_which_type_of_filter_characteristics?$ |
| A. | Low pass filter |
| B. | High pass filter |
| C. | Band pass filter |
| D. | Band reject filter |
| Answer» C. Band pass filter | |
| 7. |
The phase of the wave after the installation of the guided terminations will b? |
| A. | 0 |
| B. | 45 |
| C. | 90 |
| D. | 180 |
| Answer» B. 45 | |
| 8. |
The form or mode of propagation is determined by which factors? |
| A. | Type of excitation device |
| B. | Location of excitation device |
| C. | Type and location of the excitation device |
| D. | Waveguide characteristics |
| Answer» D. Waveguide characteristics | |
| 9. |
The power of a wave having an electric field strength of 12.8 units is |
| A. | 0.217 |
| B. | 0.721 |
| C. | 0.127 |
| D. | 0.172 |
| Answer» B. 0.721 | |
| 10. |
The power of a wave having a magnetic field intensity of 2.5 units is |
| A. | 1.17 kilo watt |
| B. | 1.17 mega watt |
| C. | 1.17 watt |
| D. | 11.7 watt |
| Answer» B. 1.17 mega watt | |
| 11. |
The power of a wave in a transmission line, when the current and the resistance are 5A and 120 ohm respectively is |
| A. | 3000 |
| B. | 4000 |
| C. | 2000 |
| D. | 1500 |
| Answer» B. 4000 | |
| 12. |
The cut off frequency of a waveguide with resonant cavity is given by |
| A. | V‚àö((m/a)<sup>2</sup> + (n/b)<sup>2</sup> + (p/d)<sup>2</sup>)/2 |
| B. | V‚àö((m/a)<sup>2</sup> + (n/b)<sup>2</sup> + (p/d)<sup>2</sup>) |
| C. | 2V‚àö((m/a)<sup>2</sup> + (n/b)<sup>2</sup> + (p/d)<sup>2</sup>) |
| D. | V‚àö((m/a) + (n/b) + (p/d))/2 |
| Answer» B. V‚Äö√Ñ√∂‚àö‚Ć‚àö‚àÇ((m/a)<sup>2</sup> + (n/b)<sup>2</sup> + (p/d)<sup>2</sup>) | |
| 13. |
When a waveguide is terminated, the mode of the guided termination will be |
| A. | zero |
| B. | non-zero |
| C. | infinite |
| D. | does not exist |
| Answer» C. infinite | |
| 14. |
The resonant circuit in a waveguide refers to the |
| A. | Tank circuit |
| B. | RC circuit |
| C. | Bridge circuit |
| D. | Attenuator circuit |
| Answer» B. RC circuit | |