the interaction energy of London force is inversely proportional to sixth power of the distance between two interaction particles but their mahnitude depends upon

the interaction energy of London force is inversely proportional to sixth power of the distance between two interaction particles but their magnitude depends upon

If the force acting on a body is inversely proportional to its speed, then its kinetic energy is

The intermolecular forces operating between two constituent particles depends on the distance between the centres of the molecules. Dipole-dipole interactions are inversely proportional to 3rd power of the distance where as dipole induced dipole interaction are inversely proportional to the sixth power of intermolecular distances. The forces in dry ice are proportional to (r = intermolecular distance)

The intermolecular forces operating between two constituent particles depends on the distance between the centres of the molecules. Dipole-dipole interactions are inversely proportional to 3rd power of the distance where as dipole induced dipole interaction are inversely proportional to the sixth power of intermolecular distances. In which of the following the extent of interaction is proportional to 1/r^(6) where (r = intermolecular distance)

Energy of particle executing SHM depends upon

If the force acting on a body is inversely proportional to its speed, the kinetic energy of the body is

The force acting on a body is inversely proportional to the distance (x) covered. The work done is proportional to

The ratio of momentum and kinetic energy of particle is inversely proportional to the time. Then, this is the case of a

If we assume that perptraing power of any radiation/particle is inversely proportional to its de-Broglie wavelength of the particle then:

A body is acted upon by a force which is inversely proportional to the distance covered. The work done will be proportional to