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

Consider a uniformly charged hemispherical shell. What can you say about the direction of electric field at points on the equatorial plane. (e.g. point P)

Figure shows a uniformly charged hemisphere of radius R. It has a volume charge density rho . If the electric field at a point 2R, above the its center is E, then what is the electric field at the point 2R below its center?

Figure show a hemispherical shell having uniform mass density The direction of gravitational field at point P will be along .

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

(a) Use Gauss's law to show that due to a uniformly charged spherical shell of radius R, the electric field at any point situated outside the shell at a distance r from its centre is equal to the electric field at the same point, when the entire charge on the shell were concentrated at its centre. Also plot the graph showing the variation of electric field with r, for r le R and r ge R . (b) Two point charges of +1 muC and +4 muC are kept 30 cm apart. How far from the +1muC charge on the line joining the two charges, will the net electric field be zero ?

A uniformly charged non-conducting spherical shell is given +q charge and a point charge -q is placed as shown. The electric field lines will be