Find the potential `phi` of an electric field given by `vecE=a(y hati+x hatj)` where a is a constant .

Find the potential V of an electrostatic field vec E = a(y hat i + x hat j) , where a is a constant.

The potential field of an electric field vecE = (yhati + yhati) is

Determine the potential phi (x,y,z) of an electrostatic field vec(E) = ay hati + (ax + bz) hatj + by hatk , where a and b are constants, hati, hatj are the unit vectors of the axes x,y,z. [-y(ax +bz)+ constant]

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

The potential at a point in an electric field is give by V=Rr volt where r is distance of the point from the origin of the co-ordinate system. Find the electric field at a point r=(hati+2hatj+2sqrt(5)hatk)m

Let V_(0) be the potential at the origin in an electric field vecE=E_(x)hati+E_(y)hatj . The potential at the point (x,y) is

In a region of space, the electric field is given by vecE = 8hati + 4hatj + 3hatk . The electric flux through a surface of area 100 units in the xy plane is

A particle of mass m and charge q is in a electric and magnetic field given by vecE = 2hati + 3hatj , vecB = 4hatj +6hatk The charged particle is shifted form the origin to the point P(x = 1, y=1) along a striaght path. The magnitude of the total work done is :

An electric charge +q moves with velocity vecv=3hati+4hatj+hatk ,in an electromagnetic field given by: vecE=3hati+hatj+2hatk and vecB=hati+hatj+3hatk .The y -component of the force experienced by +q is: