(a) If a spherical raindrop of radius 0.650 mm carries a charge of -3.60 pC uniformly distributed over its volume, what is the potential at its surface? (Take the potential to be zero at an infinite distance from the raindrop.) (b) Two identical raindrops, each with radius and charge specified in part (a), collide and merge into one larger raindrop. What is the radius of this larger drop, and what is the potential at its surface, if its charge is uniformly distributed over its volume?

(a) If a spherical raindrop of radius 0.650 mm carries a charge of -3.60 pC uniformly distributed over its volume, what is the potential at its surface? (Take the potential to be zero at an infinite distance from the raindrop.) (b) Two identical raindrops, each with radius and charge specified in part (a), collide and merge into one larger raindrop. What is the radius of this larger drop, and what is the potential at its surface, if its charge is uniformly distributed over its volume?

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Question

(a) If a spherical raindrop of radius 0.650 mm carries a charge
of -3.60 pC uniformly distributed over its volume, what is the potential
at its surface? (Take the potential to be zero at an infinite distance from
the raindrop.) (b) Two identical raindrops, each with radius and charge
specified in part (a), collide and merge into one larger raindrop. What is
the radius of this larger drop, and what is the potential at its surface, if
its charge is uniformly distributed over its volume?

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