In a certain region of space, the potential is given by `V=k(2x^(2)-y^(2)+z^(2))`. The electric field at the point (1, 1, 1) has magnitude:

In a certain region of space , the potential is given by : V = K [2 x^2 -y^2 - y^2 z^2 ] . The electric field at the point (1.1.1) has magnitude =.

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 is V = x^2y + yz . What is electric field at a point (1,3,1)?

Given: electric potential, phi = x^(2) + y^(2) +z^(2) . The modulus of electric field at (x, y, z) is

" In a region of space,potential function is given by V=y^(2)+2.5xy-3.5xyz " volt.Then intensity of electric field at a point " (x=1m,y=1m,z=1m) " is "

In a certain region of space, the potential field depends on x and y-coordinates as V=(-x^2+y^2) . The corresponding electric field lines in xy-plane are correctly represented by