MCQOPTIONS
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MCQOPTIONS
This section includes 9 Mcqs, each offering curated multiple-choice questions to sharpen your Network Theory knowledge and support exam preparation. Choose a topic below to get started.
| 1. |
A driving point impedance with pole at = 0 and zero at = must have ____________ term in the numerator and denominator. |
| A. | s<sup>1</sup>+ <sub>n</sub><sup>2</sup> |
| B. | s<sup>2</sup>+ <sub>n</sub><sup>2</sup> |
| C. | s<sup>1</sup>+ <sub>n</sub><sup>1</sup> |
| D. | s<sup>2</sup>+ <sub>n</sub><sup>1</sup> |
| Answer» C. s<sup>1</sup>+ <sub>n</sub><sup>1</sup> | |
| 2. |
A driving point impedance with pole at = 0 and zero at = must have ___________ term in the denominator polynomial. |
| A. | s |
| B. | s+3 |
| C. | s+1 |
| D. | s+2 |
| Answer» B. s+3 | |
| 3. |
A driving point impedance with zero at = 0 and pole at = must have ___________ term in the denominator polynomial. |
| A. | s<sup>2</sup>+ <sub>n</sub><sup>2</sup> |
| B. | s<sup>1</sup>+ <sub>n</sub><sup>1</sup> |
| C. | s<sup>2</sup>+ <sub>n</sub><sup>1</sup> |
| D. | s<sup>1</sup>+ <sub>n</sub><sup>2</sup> |
| Answer» B. s<sup>1</sup>+ <sub>n</sub><sup>1</sup> | |
| 4. |
A driving point impedance with zero at = 0 and pole at = must have ___________ term in the numerator polynomial. |
| A. | s+1 |
| B. | s |
| C. | s+3 |
| D. | s+2 |
| Answer» C. s+3 | |
| 5. |
A driving point impedance with zeros at = 0, = must have an excess ___________ term in the denominator polynomial. |
| A. | s<sup>2</sup>+ <sub>n</sub><sup>1</sup> |
| B. | s<sup>2</sup>+ <sub>n</sub><sup>2</sup> |
| C. | s<sup>1</sup>+ <sub>n</sub><sup>2</sup> |
| D. | s<sup>1</sup>+ <sub>n</sub><sup>1</sup> |
| Answer» C. s<sup>1</sup>+ <sub>n</sub><sup>2</sup> | |
| 6. |
A driving point impedance with zeros at = 0, = must have ___________ term in the numerator polynomial. |
| A. | s+3 |
| B. | s+2 |
| C. | s+1 |
| D. | s |
| Answer» E. | |
| 7. |
A driving point impedance with poles at = 0, = must have excess ___________ term in the numerator polynomial. |
| A. | s<sup>1</sup>+ <sub>n</sub><sup>1</sup> |
| B. | s<sup>1</sup>+ <sub>n</sub><sup>2</sup> |
| C. | s<sup>2</sup>+ <sub>n</sub><sup>2</sup> |
| D. | s<sup>2</sup>+ <sub>n</sub><sup>1</sup> |
| Answer» D. s<sup>2</sup>+ <sub>n</sub><sup>1</sup> | |
| 8. |
A driving point impedance with poles at = 0, = must have ___________ term in the denominator polynomial. |
| A. | s |
| B. | s+1 |
| C. | s+2 |
| D. | s+3 |
| Answer» B. s+1 | |
| 9. |
Based on the location of zeros and poles, a reactive one-port can have ____________ types of frequency response. |
| A. | 1 |
| B. | 2 |
| C. | 3 |
| D. | 4 |
| Answer» E. | |