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Two thin conducting shells of radii R an...

Two thin conducting shells of radii R and 3R are shown in the figure. The outer shell carries a chage Q and the inner shell is neutral. The inner shell is earthed with the help of a switch S

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AAKASH SERIES-ELECTROSTATICS-ADDITIONAL PRACTICE EXERCISE (LEVEL -II LECTURE SHEET (ADVANCED) STRAIGHT OBJECTIVE TYPE QUESTIONS)
  1. The figure shows an electric line of force which curves along a circul...

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  2. Three concentric metallic spherical shell A,B and C or radii a,b and c...

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  3. Three concentric conducting spherical shells of radii R,2R carry charg...

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  4. Electric charge Q is uniformly distributed around a thin ring of radiu...

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  5. A, B, C, D, P and Q are points in a uniform electric field. The potent...

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  6. The electric field intensity at all points in space is given by vecE =...

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  7. Electric potential V in space as a function of cartesian co-ordinates ...

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  8. In a uniform electric field, the potential is 10 V at the origin of co...

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  9. A circular ring of radius R with uniform positive charge density lambd...

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  10. Two small charged blocks of charges 5mu C and 3mu C are kept on a roug...

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  11. A point charge .q. is placed at the centre of an uncharged conducting ...

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  12. Two charged particles having charges 1 and -1 mu C and of mass 50 g ea...

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  13. A solid conducting sphere of radius a having a charge q is surrounde...

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  14. A spherical shell of radius R(1) with a uniform charge q has a point c...

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  15. Self energy of conducting sphere of radius .r. carrying charge .Q. is

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  16. Self energy of conducting sphere of radius .r. carrying charge .Q. is

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  17. A thin wire of linear charge density lambda is bent in the form of a t...

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  18. Electric field in a region is given by vec( E) = - 4xhat(i) + 6yhat(j)...

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  19. The potential in certain region is given as V = 2x^(2), then the charg...

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  20. Two thin conducting shells of radii R and 3R are shown in the figure. ...

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