A charged partical having a charge of `-2.0 xx 10^(-6) C` is placed close to a nonconducting plate having a surface charge density `4.0 xx 10^(6) C m^(-2). Fine the force of attraction between the particle and the plate.

An electric dipole is prepared by taking two electric charges of 2 xx 10^(-8) C separated by distance 2 mm. This dipole is kept near a line charge distribution having density 4 xx 10^(-4) C/m in such a way that the negative electric charge of the dipole is at a distance 2 cm from the wire as shown in the figure. Calculate the force acting on the dipole. [Take k=1/(4piepsilon_(0)) = 9 xx 10^(9) Nm^(2)C^(-2) ]

(a) Calcualte the potential at a point P due to a charge of 4 xx 10^(-7) C located 9 cm away. (b) Hence obtain the work done in bringing a charge of 2 xx 10^(-9) C from infinity to the point P. Does the answer depend on the path along which the charge is brought?

Work done in placing a charge of 8 xx 10^(-18) C on a capacitor of capacitance 800 microfarad is

Two large thin metal plates are parallel and close to each other on their inner faces the plates have surface charges densites of opposite region of the first plate (b) in the outer region of the second plate and (c ) between the plates

What charge would be required to electrify a sphere of radius 25 cm, so as to get a surface charge density of 3/pi C/m^2 ?

An infinite line charge produces a field of 9xx10^(4) N/C at a distance of 2 cm calculate the linear charge density

The charge 3.0 xx 10^(-5) C are placed on a metal sphere of radius 3.0 m, then the energy stored in it will be ........ .

A certain particle carreis 2.5 xx 10^(16) C of static electric charge .Caculate the number of electrons presenct in it.