Intensity of electric field at a point at a perpendicular distance .r. from an infinite line charge, having linear charge density `.lambda.` is given by :

Intensity of electric field at a perpendicular distance of 0.5 m from an infinitely long line charge having linear charge density (lamda) is 3.6 xx 10^(3) Vm^(-1) . Find the value of lamda

Electric field at a point of distance r from a uniformly charged wire of infinite length having linear charge density lambda is directly proportional to

The dimensional formula of linear charge density lambda is

Find the electric flux crossing the wire frame ABCD of length l, width b, and center at a distance OP = d from an infinite line of charge with linear charge density lambda . Consider that the plane of the frame is perpendicular to the line OP

Two infinite line charges with uniform linear charge densities + lamda & - lamda are kept in such a way that the angle between them is 30^(@). The electric field at the symmetric point P at a perpendicular distance r from each line charge is given by:

Two infinite line charges with uniform linear charge densities + lamda & - lamda are kept in such a way that the angle between them is 30^(@). The electric field at the symmetric point P at a perpendicular distance r from each line charge is given by:

Let E_1(r) , E_2(r) and E_3(r) be the respectively electric field at a distance r from a point charge Q , an infinitely long wire with constant linear charge density lambda , and an infinite plane with uniform surface charge density sigma . If E_1(r_0)=E_2(r_0)=E_3(r_0) at a given distance r_0 , then

Electric field at centre O of semicircule of radius 'a' having linear charge density lambda given is given by

The magnitude electric potential difference between A and B for a given infinite line charge having uniform density lambda is approximately (Given log_e 2= 0.7 , lambda = 10^-8 C/m )

Find the electric field due to an infinitely long cylindrical charge distribution of radius R and having linear charge density lambda at a distance half of the radius from its axis.