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A positive charge Q is uniformly distrib...

A positive charge Q is uniformly distributed throughout the volume of a dielectric sphere of radius R. A point mass having charge +q and mass m is fired toward the center of the sphere with velocity v from a point at distance `r (r gt R)` from the center of the sphere. Find the minimum velocity v so that it can penetrate `(R//2)` distance of the sphere. Neglect any resistance other than electric interaction. Charge on the small mass remains constant throughout the motion.

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PHYSICS GALAXY - ASHISH ARORA-ELECTROSTATICS-Partice Exercise
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  2. Two thin wire rings each having radius R are placed at distance d apar...

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  3. A positive charge Q is uniformly distributed throughout the volume of ...

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  4. The electric potential at surface of thin non-conducting sheet with ch...

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  5. Two identical circular rings A and B of radius 30 cm are placed coaxia...

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  6. A non-conducting disc of radius a and uniform positive surface charge ...

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  7. Determine the potential phi (x,y,z) of an electrostatic field vec(E) =...

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  8. Find the potential difference between points a and b in and electric f...

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  9. Consider a spherical surface of radius 4 m cenred at the origin. Point...

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  10. A plastic rod has been formed into a circle of radius R. It has a posi...

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  11. A ring of radius R is having two charges q and 2q distributed on its t...

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  12. A spherical oil drop, radius 10^(-4) cm has on it at a certain a total...

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  13. Three charges 0.1 coulomb each are placed on the corners of an equila...

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  14. A system consists of two concentric spheres, with the inside sphere ...

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  15. At the end points of a line sigment of a length of d = (sqrt(337))/(84...

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  16. A conducting sphere S1 of radius r is attached to an insulating handle...

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  17. A uniform disc of radius R is charged with a uniform surface charge de...

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  18. A dielectric cylinder of radius a is infinitely long. It is non-unifor...

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  19. In figure-, an electric dipole is placed at a distance x from an infin...

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  20. Two point dipoles phat(k) and (P)/(2) hat(k) are located at (0, 0, 0)...

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