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A sphere of charge + Q is fixed in posit...

A sphere of charge + Q is fixed in position. A smaller sphere of charge + q is placed near the larger sphere and released from rest. The small sphere will move away from the large sphere with decreasing velocity an inreasing acceleration, decreasing velocity and increasing acceleration, decreasing velocity and constant acceleration, increasing velocity and increasing acceleration explain, which of the following statements is correct?

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MODERN PUBLICATION-ELECTRIC FIELD-EXERCISE
  1. A ball of charge q is plaed in a hollow conductive uncharged sphere. A...

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  2. A ball of charge q is plaed in a hollow conductive uncharged sphere. A...

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  3. A sphere of charge + Q is fixed in position. A smaller sphere of charg...

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  4. Graphically, represent the variation of electric field due to a point ...

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  5. Graphically, represent the variation of electric field due to a point ...

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  6. Graphically, represent the variation of electric field due to a point ...

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  7. Three point charges, each having a charge +10 C are placed on the thre...

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  8. Five point charges, each having a charge q are placed on the five cron...

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  9. A small metal ball of mass m is suspended from a thread of length l be...

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  10. A small metal ball of mass m is suspended from a thread of length l be...

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  11. What is the use of the concept of electric field intensity?

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  12. Establish the relation between electric field strength and force.

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  13. Derive an expression for electric field intensity at a distance r from...

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  14. Find the electric field intensity at any point on the axis of a unifor...

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  15. What is an electric dipole? Define electric dipole moment and give its...

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  16. Define the term electric dipole moment. Give its units Derive an expre...

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  17. Define electric field intensity at a point. Give its S.I. units. Deriv...

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  18. Define electric field intensity at a point. Give its S.I. units. Deriv...

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  19. Define electric field intensity at a point. Give its S.I. units. Deriv...

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  20. Define electric field intensity at a point. Give its S.I. units. Deriv...

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