Find the magnitude of the electric field at a point 4 cm away from a line charge of density `2 xx 10^(-6) C/m`

An infinitely long thin straight wire has uniform linear charge density of 1/3Cm^(-1) .Then, the magnitude of the electric intensity at'a point 18 cm away is (given epsilon_(0) = 8.8 xx 10^(-12) C^(2) Nm^(-2))

Two charges 10 muC are placed 5.0 mm apart. Determine the electric field at a point Q, 15 cm away from O on a line passing through O and normal to the axis of the dipole, as shown in Fig.

An infinitely long thin straight wire has uniform linear charge density of (1)/(3) Cm^(-1) . Then the magnitude of the force acting on a charge 3 mu C situated at a point of 18 cm away from the wire is ((1)/(4 pi epsilon_(0))=9 xx 10^(9) Nm^(2)C^(-2))

The electric field intensity in air at a point 20 cm from a point charge Q coulombs is 4.5 xx10^(5) N//C . The magnitude of Q is

A long wire carries a current of 18 A kept along the axis of a long solenoid of radius 1 cm. The field due to the solenoid is 8 xx10 ^(-3)T. The magnitude of the resultant field at a point 0.6 mm from the solenoid axis is (Assume mu_(0) = 4pi xx 10 ^(-7)Tm//A)

A solid sphere of radius r_1 =1 cm carries charge distributed uniformly over it with density rho_1 = -3 C//cm^3 . It is surrounded by a concentric spherical shell of radius r_2 = 2cm carrying uniform charge density rho_2 = 1/2 C//cm^2 . If E_d denotes the magnitude of the electric field at distance d from the common centre of the spheres, then