The electric potential in a region is given by `V = (2x^(2) - 3y)` volt where `x` and `y` are in meters. The electric field intensity at a point `(0, 3m, 5m)` is

The electric potential V at any point in space is given V = 20 x ^3 volt, where x is in meter. Calculate the electric intensity at point P (1, 0, 2).

The electric potential V at any point (x, y) in a plane is given by V=5x^(2)-4y^(2) volt. Find the magnitude of electric field intensity at the point (1m, 2m).

The electric potential V at any point (x, y, z) in space is given by V =3x^2 where x, y, z are all in metre. The electric field at the point (1 m, 0,2 m) is

Electric potential in a region of space is given by V=(x^(2)+y^(2)+z^(2))V . What will be electric field intensity at a point P(-1m, 2m, -3m)?

Electric potential in a region is given by V=12x^(2)+3y^(2)+z^(2) . Calculate the electric field intensity at point (1m, 3m, 2m).

The electric potential in aregion of space is given by V=(5x-7x^(2)y+8y^(2)+16yz-4z) volt. The y-component of the electric field at the point (2,4,-3) is

The electric potential at a point (x, y, z) is given by V = -x^(2)y - xz^(3) +4 . Find the intensity of electric field vec(E ) at that point.

Electric potential in a region is varying according to the relation V = (3x^(2))/(2) - (y^(2))/(4) , where x and y are in metre and V is volt, Electric field intensity (in N/C) at a point (1 m, 2 m ) is