The potential inside a charged ball depends only on the distance `r` of the point form its centre according to the following relation `V=Ar^(2)+B volts` The charge density inside the ball will be

The electrostatic potential inside a charged spherical ball is given by phi=ar^2+b where r is the distance from the centre and a, b are constants. Then the charge density inside the ball is:

The electrostatic potential inside a charged spherical ball is given by phi=ar^2+b where r is the distance from the centre and a, b are constants. Then the charge density inside the ball is:

The electrostatic potential inside a charged spherical ball is given by phi=ar^2+b where r is the distance from the centre and a, b are constants. Then the charge density inside the ball is:

The potential of the field inside a charged sphere depends upon the distance from its centre to the point under consideration in the following way: V=ar^n+b , where a and b are constants If the charge is uniformly distributed within the sphere, then the value of n is

The potential of the field inside a charged sphere depends upon the distance from its centre to the point under consideration in the following way: V=ar^n+b , where a and b are constants If the charge is uniformly distributed within the sphere, then the value of n is

The electrostatic potential inside a charged spherical ball is given by phi = ar^(2) + b , where r is distance from the center of the ball, a and b are constants. Calculate the charge density inside the ball.