A neutron of kinetic `6.5 eV` collides inelastically with a singly ionized helium atom at rest. It is scattered at an angle `90^(@)` with respect to its original direction.
Find the maximum allowed value of energy of the He atom?

A neutron of kinetic 6.5 eV collides inelastically with a singly ionized helium atom at rest. It is scattered at an angle 90^(@) with respect to its original direction. Find the minimum allowed value of energy of the neutron.

A neutron of kinetic 65 eV collides inelastically with a singly ionized helium atom at rest. It is scattered at an angle 90^(@) with respect to its original direction. Find the minimum allowed value of energy of the neutron.

A neutron of kinetic 65 eV collides inelastically with a singly ionized helium atom at rest. It is scattered at an angle 90^(@) with respect to its original direction. Find the minimum allowed value of energy of the neutron.

A neutron of kinetic energy 65 eV collides inelastically with a singly ionised helium atom at rest. It is scattered at an angle 90^@ with respect to original direction. If the energy of scattered neutron is 6.36 eV, find the frequency of emitted radiation from the helium atom after suffering collision.

A neutron collided elastically with the nucleus of the a carbon atom at rest . Show that the neutron lost 0.284 part of its initial kinetic energy .

A neutron having kinetic energy E_(0) collides with singly ionised He atom at rest and move along initial direction. Which of the following statement(s) is/are true for the above mentioned collision.