The collision smearing of the nucleon momenta about their initial values during relativistic nucleus-nucleus collisions is investigated.To a certain degree, our model belongs to the transport type, and we investigate the evolution of the Stocking Cap nucleon system created at a nucleus-nucleus collision.However, we parameterize this development by the number of collisions of every particle during evolution rather than by the time variable.
It is assumed that the group of nucleons which leave the system after the Stemless Wine Glasses same number of collisions can be joined in a particular statistical ensemble.The nucleon nonequilibrium distribution functions are derived which depend on a certain number of collisions of a nucleon before a freeze-out.