[" At any point "(x,0,0)" the electric potential "V" is "],[((1000)/(x)+(1500)/(x^(2))+(500)/(x^(3)))" volt,then electric field "],[" intensity at "x=1m" is - "]

The electric potential at a point (x,0,0) is given by V=[(1000)/(x)+(1500)/(x^(2))+(500)/(x^(3))] "then the electric field at" x=1 m is (in volt//m)

The electric potential at a point (x,0,0) is given by V=[(1000)/(x)+(1500)/(x)+(500)/(x^(3))] "then the electric field at" x=1 m is (in volt//m)

The potential at a point in space depends only upon the x-coordinate and it is given as V = (1000)/(x)+(1500)/(x^(2))+(500)/(x^(3)) Determine the electric field strength at point where x = 1 m .

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).

Electric potential in space V(x,y,z) = (x^(2) + y^(2) + z^(2))V Then the magnitude of electric field strength E at (1m, 0, 2m) in N/C is:

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 is a function of distance x in metre by V = ( 10x^2 - 5x + 3) volt. Value of electric field at x = 2 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)?

The electric potential at a point (x,y,z) is given by V=-x^2y-xz^3+4 .The electric field vecE at the point is: