The direction (q) of `vec(E )` at point p due to uniformly charged rod will be

The direction (theta) of vec(E) at point P due to uniformly charged finite rod will be

The maximum electric field at a point on the axis of a uniformly charged ring is E_(0) . At how many points on the axis will the magnitude of the electric field be E_(0)//2 .

STATEMENT-1 : Electric field at a point due to an infinite sheet of uniformly distributed charge is independent of distance between the point from the sheet. STATEMENT-2 : Electric field at a pont due to an uniformly distributed long charged rod is inversity proportional to distance between the point and rod. STATEMENT-3 : Electric field at a point due to an electric dipole is inversely proportional to the cube of distance between point and centre of dipole.

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

The net field vecE due to the uniformly charged rod at P makes angles theta_(1) and theta_(2) with AP and BP respectively. Then find the value of theta_(1)//theta_(2)

A charge q = (-2 xx 10^(-9)) is placed at (1 m, 2m, 3m). There is a point P = (2m , -3m, 4 m) A unit vector in the direction of electric field at P due to charge q will be

The electric potential due to uniformly charged sphere of radius R ,having volume charge density rho having a spherical cavity of radius R/2 as shown as in figure at point p is

Find the electric field at a point P on the perpendicular bisector of a uniformly charged rod. The lengthof the rod is L, the charge on it is Q and the distance of P from the centre of the rod is a.

Find the electric field at a point P on the perpendicular bisector of a uniformly charged rod. The length of the rod is L, the charge on it is Q and the distance of P from the centre of the rod is a.

The electric field at point P due to a charged ball is given by E_(p)=(1)/( 4pi epsilon_(0))(q)/(r^(2)) To measure 'E' at point P, A test charge q_(0) is placed at point P and measure electric force F upon the test charge. Check whether (F)/(q_(0)) is equal to (1)/(4pi epsilon_(0))(q)/(r^(2)) or not .