The electric field strength depends only on the x and y coordinates according to the law E = `(a(xhati+ y hatj))/(x^(2) + y^(2))` , where a is a constant `hati` and `hatj` are unit vectors of the x and y axes . Find the potential difference between x = 1 and x = 5 :

The electric field strength depends only on the x and y coordinates according to the law E = a (x i + yj) (x^(2) + y^(2)) , where a is a constant , i and j are the unit vectors of the x and y axes. Find the flux of the vector E through a sphere of raidus R with its centre at the origin of coordinates.

The intensity of an electric field depends only on the coordinates x and y as follows, E = (a(xhati +y hatj))/(x^(2)+y^(2)) where, a is constant and hati and hatj are the unit vectors of the x and y axes. Find the charges within a sphere of radius R with the centre at the origin.

Find the potential varphi (x,y) of an electrostatic field E = 2axyi + a (x^(4) - y^(2)) j , where a is a constant, I and J are the unit vectors of the x and y axes.

hati and hatj are unit vectors along x and y axis. What is the magnitude and direction of the vector hati + hatj ?

Determine the electric field strength vector if the potential of this field depends on x, coordinates as (a) V = a (x^2 — y^2) (b) V = axy where, a is a constant.

Determine the electric field strength vector if the potential of this field depends upon x - and y - coordinates as : (i) V = a(x^2 - y^2) (ii) V = a x y .

The work done by the force vec(F)=A(y^(2) hati+2x^(2)hatj) , where A is a constant and x & y are in meters around the path shown is :