The mid points of two small magnetic dipoles of length d in end-on positions, are separated by a distance x, `(x gt gt d)`. The force between them is proportional to `x^(-n)`, where n is:

Two unlike charges of magnitude q are separated by a distance 2d . The potential at a point midway between them is

The ratio of magnetic fileds of a dipole at a distance d in the broadside - on position to end - on position is .

The force between two short electric dipoles separated by a distance r is direcly proportional to :

Light waves of wave length lambda propagate in a medium. If M end N are two points on the wave front and they are separated by a distance lambda"/"4 , the phase difference between them will be (in radian)

The distance between the graph of the equations x=-3\ a n d\ x=2 is

Due to a small magnet intensity at a distance x in the end on position is 9 Gauss. What will be the intensity at a distance (x)/(2) on broad side on position?

The difference between two positive numbers x and y (x gt y) is 4 and the difference between their reciprocals is (4)/(21) . Find the numbers.

If the distance between two dissimilar magnetic poles held d cm apart be doubled, then the force of attraction between them will be:

Two point electric dipoles with dipole moment P_(1) and P_(2) are separated by a distance r with their dipole axes mutually perpendicular as shown. The force of interaction between the dipoles is (where k=(1)/(4piepsilon_(0)) )

Two small bar marnets are placed in a line with like poles facing each other at a certain distance d apart. If the length of each magnet is neglifible as compared to d, the force between them will be inversely proportional to