The article starts with Bridgman distribution, discusses something about Maxwell distribution of relativity particles, and then transfers to non-relativity and extreme relativity particles.

Problems investigated in the thesis consist of two parts: one part is the numerical study of dispersion relations in relativistic plasma with Maxwell distribution; another part is the analytical and numerical studies of dispersion relations in relativistic plasma with Fermi distribution.

Based on Maxwellian distribution and De Broglie relation and the relation between the classical law and quantum law ,this paper analyses the relation between characteristic frequency and three-characteristic speed of gaseous molecule in equilibrium states and discusses the applications of division frequency and division temperature as well as the relation between them.

Application of non-Maxwellian distribution for the ion velocity in calculation of incoherent scattering spectra in high-latitude ionosphere;

This distribution laws takes the Maxwell distribution law as the limiting case when the number of particles N aproaches infinity.

The have proved that Maxwell distribution might give up distribution of turn and vibration in without regular motion,Eigen funtion ( m,v ) is only change by ( I,ω ) or (α,x ).

The characteristic volume and the temperature division about heat gas movement are given, the influence about gas temperature to the Maxwellian component velocity distribution is analysed, and the result is discussed.