The electric potential existing in space is `V(x,y,z)= A (xy+ yz+zx)`.(a) Write the dimensional A. (b) find the expression for the electric field.( c ) If A is 10 SI units, find the magnitude of the electric field at (1m, 1m, 1m).

The electric potential existing in space is V(x,y,z)= A (xy+ yz+zx) .(a) Write the dimensional formula of A. (b) find the expression for the electric field.( c ) If A is 10 SI units, find the magnitude of the electric field at (1m, 1m, 1m).

The electric potential existing in space is V(x,y,z)A(xy+yz+zx) (a) Write the dimensional formula of A. (b) Find the expression for the electric field. (c) If A is 10 SI units, find the magnitude of the electric field at (1 m, 1 m, 1 m)

The electric potential existing in space is V(x,y,z)=A(xy+yz+zx) (a) Write the dimensional formula of A. (b) Find the expression for the electric field. (c) If A is 10 SI units, find the magnitude of the electric field at (1 m, 1 m, 1 m)

The electric potential existing in space is V(x,y,z)= A (xy+ yz+zx) .(a) Write the dimensional formula of . If A is 10 SI units, find the magnitude of the electric field at (1m, 1m, 1m).

In a certain region, the electric potential is given by the formula V(x ,y, z) = 6xy - y + 2yz Find the components of electric field and the vector electric field at point (1, 1, 0) in this field. Find the vector of electric at (1, 1, 0).

The electric potential at a point is given by V=3x^2y+5y^2z+7z^2x Find the magnitude of electric field at the point(3,2,1)

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

The variation of potential with distance x from a fixed point is shown in figure. Find the magnitude of the electric field (in V // m) at x=13 m .