MCQOPTIONS
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MCQOPTIONS
This section includes 12 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. |
For a T shaped network, if the Short-circuit admittance parameters are y11, y12, y21, y22, then y22 in terms of Inverse Transmission parameters can be expressed as ________ |
| A. | y<sub>22</sub> = ( frac{A }{B } ) |
| B. | y<sub>22</sub> = ( frac{1}{B } ) |
| C. | y<sub>22</sub> = ( left(C frac{D A }{B } right) ) |
| D. | y<sub>22</sub> = ( frac{D }{B } ) |
| Answer» E. | |
| 2. |
For a T shaped network, if the Short-circuit admittance parameters are y11, y12, y21, y22, then y21 in terms of Inverse Transmission parameters can be expressed as ________ |
| A. | y<sub>21</sub> = ( frac{A }{B } ) |
| B. | y<sub>21</sub> = ( frac{1}{B } ) |
| C. | y<sub>21</sub> = ( left(C frac{D A }{B } right) ) |
| D. | y<sub>21</sub> = ( frac{D }{B } ) |
| Answer» D. y<sub>21</sub> = ( frac{D }{B } ) | |
| 3. |
For a T shaped network, if the Short-circuit admittance parameters are y11, y12, y21, y22, then y12 in terms of Inverse Transmission parameters can be expressed as ________ |
| A. | y<sub>12</sub> = ( frac{A }{B } ) |
| B. | y<sub>12</sub> = ( frac{1}{B } ) |
| C. | y<sub>12</sub> = ( left(C frac{D A }{B } right) ) |
| D. | y<sub>12</sub> = ( frac{D }{B } ) |
| Answer» C. y<sub>12</sub> = ( left(C frac{D A }{B } right) ) | |
| 4. |
For a T shaped network, if the Short-circuit admittance parameters are y11, y12, y21, y22, then y11 in terms of Inverse Transmission parameters can be expressed as ________ |
| A. | y<sub>11</sub> = ( frac{A }{B } ) |
| B. | y<sub>11</sub> = ( frac{1}{B } ) |
| C. | y<sub>11</sub> = ( left(C frac{D A }{B } right) ) |
| D. | y<sub>11</sub> = ( frac{D }{B } ) |
| Answer» B. y<sub>11</sub> = ( frac{1}{B } ) | |
| 5. |
For a T-network if the Open circuit Impedance parameters are z11, z12, z21, z22, then z22 in terms of Transmission parameters can be expressed as ____________ |
| A. | z<sub>22</sub> = ( frac{A}{C} ) |
| B. | z<sub>22</sub> = ( frac{AD}{C B} ) |
| C. | z<sub>22</sub> = ( frac{1}{C} ) |
| D. | z<sub>22</sub> = ( frac{D}{C} ) |
| Answer» E. | |
| 6. |
For a T-network if the Open circuit Impedance parameters are z11, z12, z21, z22, then z21 in terms of Transmission parameters can be expressed as ____________ |
| A. | z<sub>21</sub> = ( frac{A}{C} ) |
| B. | z<sub>21</sub> = ( frac{AD}{C B} ) |
| C. | z<sub>21</sub> = ( frac{1}{C} ) |
| D. | z<sub>21</sub> = ( frac{D}{C} ) |
| Answer» D. z<sub>21</sub> = ( frac{D}{C} ) | |
| 7. |
For a T-network if the Open circuit Impedance parameters are z11, z12, z21, z22, then z12 in terms of Transmission parameters can be expressed as ____________ |
| A. | z<sub>12</sub> = ( frac{A}{C} ) |
| B. | z<sub>12</sub> = ( frac{AD}{C B} ) |
| C. | z<sub>12</sub> = ( frac{1}{C} ) |
| D. | z<sub>12</sub> = ( frac{D}{C} ) |
| Answer» C. z<sub>12</sub> = ( frac{1}{C} ) | |
| 8. |
For a T-network if the Open circuit Impedance parameters are z11, z12, z21, z22, then z11 in terms of Transmission parameters can be expressed as ____________ |
| A. | z<sub>11</sub> = ( frac{A}{C} ) |
| B. | z<sub>11</sub> = ( frac{AD}{C B} ) |
| C. | z<sub>11</sub> = ( frac{1}{C} ) |
| D. | z<sub>11</sub> = ( frac{D}{C} ) |
| Answer» B. z<sub>11</sub> = ( frac{AD}{C B} ) | |
| 9. |
For a T shaped network, if the Short-circuit admittance parameters are y11, y12, y21, y22, then y22 in terms of Transmission parameters can be expressed as ________ |
| A. | y<sub>22</sub> = ( frac{D}{B} ) |
| B. | y<sub>22</sub> = ( frac{C-A}{B} ) |
| C. | y<sub>22</sub> = ( frac{1}{B} ) |
| D. | y<sub>22</sub> = ( frac{A}{B} ) |
| Answer» E. | |
| 10. |
For a T shaped network, if the Short-circuit admittance parameters are y11, y12, y21, y22, then y21 in terms of Transmission parameters can be expressed as ________ |
| A. | Y<sub>21</sub> = ( frac{D}{B} ) |
| B. | Y<sub>21</sub> = ( frac{C-A}{B} ) |
| C. | Y<sub>21</sub> = ( frac{1}{B} ) |
| D. | Y<sub>21</sub> = ( frac{A}{B} ) |
| Answer» D. Y<sub>21</sub> = ( frac{A}{B} ) | |
| 11. |
For a T shaped network, if the Short-circuit admittance parameters are y11, y12, y21, y22, then y12 in terms of Transmission parameters can be expressed as ________ |
| A. | y<sub>12</sub> = ( frac{D}{B} ) |
| B. | y<sub>12</sub> = ( frac{C-A}{B} ) |
| C. | y<sub>12</sub> = ( frac{1}{B} ) |
| D. | y<sub>12</sub> = ( frac{A}{B} ) |
| Answer» C. y<sub>12</sub> = ( frac{1}{B} ) | |
| 12. |
For a T shaped network, if the Short-circuit admittance parameters are y11, y12, y21, y22, then y11 in terms of Transmission parameters can be expressed as ________ |
| A. | y<sub>11</sub> = ( frac{D}{B} ) |
| B. | y<sub>11</sub> = ( frac{C-A}{B} ) |
| C. | y<sub>11</sub> = ( frac{1}{B} ) |
| D. | y<sub>11</sub> = ( frac{A}{B} ) |
| Answer» B. y<sub>11</sub> = ( frac{C-A}{B} ) | |