An electric dipole is placed at the origin `O` and is directed along the `x`-axis. At a point `P`, far away from the dipole, the electric field is parallel to `y`-axis. `OP` makes an angle `theta` with the `x`-axis then

An electric dipole is placed along x -axis with its centre at origin:

An electric dipole is placed along the X-axis O . Point P is at a distance of 20cm from the origin such that OP makes an angle pi//3 with the X -axis. If the electric field at P makes an angle theta with the X -axis the value of theta will be

An electric dipole is placed at origin in the xy plane with its orientation along the positive x-axis. The direction is electric field .

A small electric dipole is placed at origin with its dipole moment directed along positive x-axis .The direction of electric field at point (2,2sqrt(2),0)

A small electric dipole is placed at origin with its dipole moment directed along positive x-axis. The direction of electric field at point (2, 2sqrt(2), 0) is

An electric dipole is placed at the origin along x -axis.The electric field at any point , whose position vector , makes an angle theta with the x -axis ,makes an angle

The electric potential at a point on the axis of an electric dipole depends on the distance r of the point from the dipole as

There is one short electric dipole placed on a plane. A straight line is drawn on this plane passing through the centre of electric dipole making an angle theta with the axis of dipole. A point P is selected on this line at a distance ten times the length of electric dipole from centre of electric dipole. Electric field intensity at the point P makes an angle alpha with the axis of electric dipole . What will be the magnitude of (tan theta)/(tan alpha) ?

An electric dipole placed withits axis in the direction of a unifrom electric field experience

Due to an electric dipole shown in fig., the electric field intensity is parallel to dipole axis :