A hemisphere is uniformely charged positively. The electric field at a point on a diameter away from the centre is directed.

A hemispherical shell is uniformly charge positively. The electric field at point on a diameter away from the center is directed

A hemispherical shell is uniformly charge positively .the electric field at point on a diameter away from the centre is directed

Consider a thin spherical shell of radius R consisting of uniform surface charge density sigma . The electric field at a point of distance x from its centre and outside the shell is

Consider an atom with atomic number Z as consisting of a positive point charge at the centre and surrounded by a distribution of negative electricity uniformly distributed within a sphere of radius R. The electric field at a point inside the atom at a distance r from the centre is

The electric field of a point charge is uniform. Is it true or false?

Figure shows a uniformly charges hemispherical shell. The direction of electric field at point p that is off centre (but in the plane of the largest circle of the hemisphere), will be along

A uniform but time-varying magnetic field B(t) exists in a circular region of radius a and is directed into the plane of the paper, as shown. The magnitude of the induced electric field at point P at a distance r from the centre of the circular region

A point charge is brought in an electric field. The electric field at a near by point

Two particles A and B, having opposite charges 2.0xx 10^(-6) and -2.0 xx10^(-6) C , are placed at a separaton of 1.0 cm.(a) write down the electric dipole moment (b) Calculate the electric field at a point on the axis of the dipole 1.0 m away from the centre. (c ) Calculate the electric field at a point on the perpendicular bisector of the dipole and 1.0 m away from the centre.

A nonconducting sphere of radius R is filled with uniform volume charge density -rho . The center of this sphere is displaced from the origin by vecd . The electric field vecE at any point P having position vector inside the sphere is