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`.

Determine the electric field strength vector if the potential of this field depends on X, coordinates as V = 10 axy

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.

Gravitational potential in x-y plan varies with x and y coordinates as V = x^(2)y+2xy Find gravitational field strength E .

The electric field strength depends only on the x, y, and z coordinates according to the law E = (a(xhati+yhatj+zhatk))/(x^2+y^2+z^2)^3//2 , where a = 280 Nm^2C^(-1) is a constant. If the potential difference between (3,2,6) and (0,3,4) is x^2 . What is the value of x.

Which of these is/are representing electrostatic field? ( x and y are space coordinates)

The direction of the field B at P is the V shaped wire is in x-y plane

Let V_0 be the potential at the origin in an electric field vecE = 4hati + 5hatj . The potential at the point (x,y) is

Determine graphically the coordinates of the vertices of a triangle, the equations of whose sides are: (i) y=x ,\ \ y=2x and y+x=6 (ii) y=x ,\ \ 3y=x and x+y=8

The electric field strenth vector is given by E= 2.5x hat I + 1.5y hat .The potential at point (2,2,1) is (considering potential at origin to be zero)

The electrostatic potential V at any point (x, y, z) in space is given by V=4x^(2)