Consider a spherical shell of radius R ...

Consider a spherical shell of radius R with a total charge `+Q` uniformly spread on its surface (center of the shell lies at the origin x= 0). Two point charge, `+q` and `-q` are brought, one after the other, from far away and placed at `x = -a//2` and `x = + a//2 (a lt R)`, respectively. Magnitude of the work done in this process is

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Consider a spherical shell of radius R wil a total charge +Q uniformly spread on its surface (centre of the shell lies at the origin x =0) Two point charge +q and -q are brought, one after the other, from far away and placed at x = -a//2 and x = +a//2(a lt R) respectively. Magnitude of the work done in this process is

Consider a spherical shell of radius R wil a total charge +Q uniformly spread on its surface (centre of the shell lies at the origin x =0) Two point charge 1 and -q are brought, one after the other, from far away and placed at x = -1//2 and x = +a//2(a lt R) respectively. Magnitude of the work done in this process is

A thin spherical conducting shell of radius R has a charge q. Another charge Q is placed at the centre of the shell. The electrostatic potential at a point P a distance R/2 from the centre of the shell is

A thin spherical conducting shell of radius R has a charge q. Another charge Q is placed at the centre of the shell. The electrostatic potential at a point P a distance R/2 from the centre of the shell is

A thin spherical conducting shell of radius R has a charge q. Another charge Q is placed at the centre of the shell. The electrostatic potential at a point P a distance R/2 from the centre of the shell is

A thin spherical conducting shell of radius R has a charge q. Another charge Q is placed at the centre of the shell. The electrostatic potential at a point P a distance R/2 from the centre of the shell is

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