Potential inside a uniformly charged solid sphere is given by `Q (a + b (r/R)^c)/ (4 pi epsilon_0)` What are the values of a,b,c?

Consider a sphere of radius R with unform charged density and total charge Q. The electrostatic potential distribution inside the sphere is given by phi (r ) =(Q )/( 4 pi epsi_0 R) (a + b ( r//R)^c ) Note that the zero of potential is at infinity. The values of (a, b, c) are :-

Flux (ph) as a function of distance (r) from centre of uniformly charged solid sphere of charge Q and radius R , is best represented by

There are two spheres of radii R and 2R having charges Q and Q_(2) respectively. These two spheres are connected with a cell of emf V volts as shown in figure. When switch is closed, the final charge on sphere of radius 2R is Q + (8pi epsilon_(0) RV)/(n) . Then find the value of n.

If the potential at the center of a uniformly charged sphere of radius R is V then electric field at a distance r from the center of sphere will be ( r lt R ) : -

A conducting sphere A of radius a , with charge Q , is placed concentrically inside a conducting shell B of radius b . B is earthed. C is the common center of A and B . Study the following statements. (i) The potential at a distance r from C , where a le r le b, is (1)/(4 pi epsilon_0)(q/( r)) (ii) The potential difference between A and B is (1)/(4 pi epsilon_0) Q ((1)/( r) - (1)/B) (iii) The potential at a distance r from C , where a le r le b, is (1)/(4 pi epsilon_0) Q ((1)/r - (1)/B) Which of the following statements are correct ? .

Consider a system of three charges (q)/(3),(q)/(3) and -(2q)/(3) placed ar point A,B and C respectively, as shown in the figure. Take O to be the centre of the circle of radius R and angle CAB = 60^(@) . Choose the incorrect options (1) The electric field at point O is (q)/(8 pi epsilon_(0)R^(2)) directed along the negative x-axis (2) The potential energy of the system is zero (3) The potential at point O is (q)/(12 pi epsilon_(0) R) (4) The magnitude of the force between the charges at C and B is (q^(2))/(54 pi epsilon_(0) R^(2))

For spherical symmetrical charge distribution, variation of electric potential with distance from centre is given in diagram Given that : V=(q)/(4pi epsilon_(0)R_(0)) for r le R_(0) and V=(q)/(4 piepsilon_(0)r) for r ge R_(0) Then which option (s) are correct : (1) Total charge within 2R_(0) is q (2) Total electrosstatic energy for r le R_(0) is non-zero (3) At r = R_(0) electric field is discontinuous (4) There will be no charge anywhere except at r lt R_(0)

The given graph shows variation (with distance r from centre) of (A)Electric field of a uniformly charged conducting sphere (B)Electric field of a uniformly charged non-conducting sphere (C) Potential of a uniformly charged hollow sphere (D)Potential of a uniformly charged non- conducting solid sphere

A solid sphere ofradius 'R' is uniformly charged with charge density rho in its volume. A spherical cavity of radius (R)/(2) is made in the sphere as shown in the figure. It is given that (rhoR^(2))/(in_(0)) = 48 V . Find the electric potential at the centre C of the sphere: