An infinitely long wire is kept along `z`-axis from `z=- oo` to `z=oo`, having uniform linear charge density `(10)/(9) nC//m`. The electric field at point `(6 cm,8cm,10 cm)` will be

An infinitely long wire is kept along z -axis from z= oo to z=oo , having uniform linear cahrges density (10)/(9) nC//m . The electric field at point (6 cm,8cm,10 cm) will be

An infinitely long wire is kept along z -axis from z= oo to z=oo , having uniform linear cahrges density (10)/(9) nC//m . The electric field at point (6 cm,8cm,10 cm) will be

An infinitely long thin straight wire has uniform linear charge density of 1/4 coul m^(-1) . Then the magnitude of the electric intensity at a point 18 cm away is

A wire AMB is placed along y-axis having linear charge density lambda C/m. The electric field intensity at point P is ( PM=0.1 m)

An infinitely long thin straight wire has uniform linear charge density of 1//3 "coul" m^(-1) .Then the magnitude of the electric intensity at a point 18cm away is

If the linear charge density of a cylinder is 4 mu C m^(-6) ,then electric field intensity at point 3.6 cm from axis is :

Figure shows a long wire having uniform charge density lambda as shown in figure. Calculate electric field intensity at point P.

An infinitely long wire with linear charge density +lambda is bent and the two parts are inclined at angle 30^@ as shown in fig, the electric field at point P is :

A rod lies along the X-axis with one end at the origin and the other at x rarr oo . It carries a uniform charge lambda Cm^(-1) . The electric field at the point x=-a on the axis will be

An infinite line charge produces a field of 7.182 xx 10^(8) N//C at distance of 2 cm. the linear charge density is