MCQOPTIONS
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MCQOPTIONS
This section includes 17 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. |
Determine the value of L1 by performing second foster form for Z(s)=5(s2+4)(s2+25)/s(s2+16). |
| A. | 35/4 |
| B. | 35/3 |
| C. | 35/2 |
| D. | 35 |
| Answer» B. 35/3 | |
| 2. |
For performing second Foster form, after splitting the Z (S) in The driving point impedance of a one-port reactive network is given by Z(s)=5(s2+4)(s2+25)/s(s2+16), what is the coefficient of s/((s2+4)) is? |
| A. | 1/35 |
| B. | 2/35 |
| C. | 3/35 |
| D. | 4/35 |
| Answer» C. 3/35 | |
| 3. |
The driving point impedance of a one-port reactive network is given by Z(s)=5(s2+4)(s2+25)/s(s2+16). After taking the partial fractions, what is the value of L2? |
| A. | 135/60 |
| B. | 135/62 |
| C. | 135/64 |
| D. | 135/66 |
| Answer» D. 135/66 | |
| 4. |
The driving point impedance of a one-port reactive network is given by Z(s)=5(s2+4)(s2+25)/s(s2+16). After taking the partial fractions, what is the value of C2? |
| A. | 4/270 |
| B. | 8/270 |
| C. | 12/270 |
| D. | 16/270 |
| Answer» C. 12/270 | |
| 5. |
The driving point impedance of a one-port reactive network is given by Z(s)=5(s2+4)(s2+25)/s(s2+16). After taking the partial fractions, what is the value of L∞? |
| A. | 2 |
| B. | 3 |
| C. | 4 |
| D. | 5 |
| Answer» E. | |
| 6. |
The driving point impedance of a one-port reactive network is given by Z(s)=5(s2+4)(s2+25)/s(s2+16). After taking the partial fractions, what is the value of C0? |
| A. | 1/125 |
| B. | 4/125 |
| C. | 2/125 |
| D. | 3/125 |
| Answer» C. 2/125 | |
| 7. |
The driving point impedance of a one-port reactive network is given by Z(s)=5(s2+4)(s2+25)/s(s2+16). After taking the partial fractions, what is the value of H from Z (s)? |
| A. | 3 |
| B. | 4 |
| C. | 5 |
| D. | 6 |
| Answer» D. 6 | |
| 8. |
The driving point impedance of a one-port reactive network is given by Z(s)=5(s2+4)(s2+25)/s(s2+16). After taking the partial fractions, find the coefficient of (s + j4). |
| A. | 135/4 |
| B. | 145/4 |
| C. | 155/4 |
| D. | 165/4 |
| Answer» B. 145/4 | |
| 9. |
The driving point impedance of a one-port reactive network is given by Z(s)=5(s2+4)(s2+25)/s(s2+16). After taking the partial fractions, find the coefficient of 1/s. |
| A. | 25/4 |
| B. | 50/4 |
| C. | 100/4 |
| D. | 125/4 |
| Answer» E. | |
| 10. |
IN_QUESTION_8,_THE_COEFFICIENT_OF_S/((S2+4)_)_IS??$ |
| A. | 4/35 |
| B. | 3/35 |
| C. | 2/35 |
| D. | 1/35 |
| Answer» D. 1/35 | |
| 11. |
Determine the value of L1 by performing second foster form for question 1.$ |
| A. | 35/4 |
| B. | 35/3 |
| C. | 35/2 |
| D. | 35 |
| Answer» B. 35/3 | |
| 12. |
For performing second Foster form, after splitting the Z (S) given in question 1 into partial fractions, the coefficient of s/((s2+4)) is? |
| A. | 1/35 |
| B. | 2/35 |
| C. | 3/35 |
| D. | 4/35 |
| Answer» C. 3/35 | |
| 13. |
The value of L‚àû in question 1 is?$ |
| A. | 2 |
| B. | 3 |
| C. | 4 |
| D. | 5 |
| Answer» E. | |
| 14. |
The value of C0 from the information provided in question 1 is? |
| A. | 1/125 |
| B. | 4/125 |
| C. | 2/125 |
| D. | 3/125 |
| Answer» C. 2/125 | |
| 15. |
The value of H from Z (s) in question 1 is? |
| A. | 3 |
| B. | 4 |
| C. | 5 |
| D. | 6 |
| Answer» D. 6 | |
| 16. |
In question 1, find the coefficient of (s + j4). |
| A. | 135/4 |
| B. | 145/4 |
| C. | 155/4 |
| D. | 165/4 |
| Answer» B. 145/4 | |
| 17. |
The driving point impedance of a one-port reactive network is given by Z(s)=5(s2+4)(s2+25)/s(s2+16) . After taking the partial fractions, find the coefficient of 1/s. |
| A. | 25/4 |
| B. | 50/4 |
| C. | 100/4 |
| D. | 125/4 |
| Answer» E. | |