MCQOPTIONS
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MCQOPTIONS
This section includes 17 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. |
If D = 2xy i + 3yz j + 4xz k, how much flux passes through x = 3 plane for which -1 |
| A. | 12 |
| B. | 24 |
| C. | 36 |
| D. | 48 |
| Answer» D. 48 | |
| 2. |
Find the value of divergence theorem for the field D = 2xy i + x2 j for the rectangular parallelepiped given by x = 0 and 1, y = 0 and 2, z = 0 and 3. |
| A. | 10 |
| B. | 12 |
| C. | 14 |
| D. | 16 |
| Answer» C. 14 | |
| 3. |
Find the value of divergence theorem for A = xy2 i + y3 j + y2z k for a cuboid given by 0 |
| A. | 1 |
| B. | 4/3 |
| C. | 5/3 |
| D. | 2 |
| Answer» D. 2 | |
| 4. |
Compute divergence theorem for D= 5r2/4 i in spherical coordinates between r=1 and r=2. |
| A. | 80π |
| B. | 5π |
| C. | 75π |
| D. | 85π |
| Answer» D. 85π | |
| 5. |
Compute the Gauss law for D= 10ρ3/4 i, in cylindrical coordinates with ρ= 4m, z=0 and z=5. |
| A. | 6100 π |
| B. | 6200 π |
| C. | 6300 π |
| D. | 6400 π |
| Answer» E. | |
| 6. |
Evaluate Gauss law for D = 5r2/4 i in spherical coordinates with r = 4m and θ = π/2. |
| A. | 600 |
| B. | 599.8 |
| C. | 588.9 |
| D. | 577.8 |
| Answer» D. 577.8 | |
| 7. |
Coulomb’s law can be derived from Gauss law. State True/ False |
| A. | True |
| B. | False |
| Answer» B. False | |
| 8. |
FIND_THE_VALUE_OF_DIVERGENCE_THEOREM_FOR_THE_FIELD_D_=_2XY_I_+_X2_J_FOR_THE_RECTANGULAR_PARALLELEPIPED_GIVEN_BY_X_=_0_AND_1,_Y_=_0_AND_2,_Z_=_0_AND_3.?$ |
| A. | 10 |
| B. | 12 |
| C. | 14 |
| D. | 16 |
| Answer» C. 14 | |
| 9. |
If_D_=_2xy_i_+_3yz_j_+_4xz_k,_how_much_flux_passes_through_x_=_3_plane_for_which_-1 |
| A. | 12 |
| B. | 24 |
| C. | 36 |
| D. | 48 |
| Answer» D. 48 | |
| 10. |
The ultimate result of the divergence theorem evaluates which one of the following? |
| A. | Field intensity |
| B. | Field density |
| C. | Potential |
| D. | Charge and flux |
| Answer» E. | |
| 11. |
Find the value of divergence theorem for A = xy2 i + y3 j + y2z k for a cuboid given by 0 |
| A. | 1 |
| B. | 4/3 |
| C. | 5/3 |
| D. | 2 |
| Answer» D. 2 | |
| 12. |
Compute divergence theorem for D= 5r2/4 i in spherical coordinates between r=1 and r=2. |
| A. | 80π |
| B. | 5π |
| C. | 75π |
| D. | 85π |
| Answer» D. 85‚âà√¨‚àö√ë | |
| 13. |
Compute the Gauss law for D= 10ρ3/4 i, in cylindrical coordinates with ρ= 4m, z=0 and z=5.$ |
| A. | 6100 π |
| B. | 6200 π |
| C. | 6300 π |
| D. | 6400 π |
| Answer» E. | |
| 14. |
Evaluate Gauss law for D = 5r2/4 i in spherical coordinates with r = 4m and θ = π/2.$ |
| A. | 600 |
| B. | 599.8 |
| C. | 588.9 |
| D. | 577.8 |
| Answer» D. 577.8 | |
| 15. |
Coulomb’s law can be derived from Gauss law. State True/ False$ |
| A. | True |
| B. | False |
| Answer» B. False | |
| 16. |
Surface integral is used to compute |
| A. | Surface |
| B. | Area |
| C. | Volume |
| D. | density |
| Answer» C. Volume | |
| 17. |
Gauss law for electric field uses surface integral. State True/False |
| A. | True |
| B. | False |
| Answer» B. False | |