ELECTRICITY AND MAGNETISM. ABSTRACT FROM RUSSIAN JOURNAL

Approved For Release 2001/03/26 : CIA-RDP96-00787ROO0500130048-3 ~ ,PS po.~s y ELECTRICITY AND MAGNETISM STRONG SCATTERING OF PARTICLES IN RANDOMLY INHOMOGENEOUS MAGNETIC FIELD 'o:acow ZHURNAL EKSPERIMENTAL'NOY I TEORETICHESKOY FIZIKI inRussian 0 Vol 81,?No 5(11), Nov 81 (manuscript received 7 May 81).pp 1 puc, ?,:Y S1lTEYN, S . I . and KICHATINOV,_L. L. , Inst the lonosp ere and Radio Wave Pro a i,,bstract] A kinetic equation is derived that describes propagation of charged particles in an electromagnetic field with random inhomogeneities in intense -scattering. The formulated problem is analogous to the theory of strong ?.cattering of electromagnetic waves, and to the problem of hydrodynamic turbulence, where there is no spLl? parameter. Solution of the problem is based on Orrszag's :approach [see S. A. Orszag, JOURNAL OF FLUID MECHANICS, Vol 41, 1970, p which yields the Kolmogorov spectrum in hydrodynamic turbulence theory. At the week scattering limit, the derived equation is automatically transformed to pre- found results. The proposed method improves on Orszag's scheme in the :;act that an equation is derived for the memory time of the system T, rather :.h:an merely assigning this parameter. The proposed kinetic equation is valid -ven when the particle scattering angle on the correlation length of the -:agnetic field is not small. An examination is made of the diffusion approxi- -:ation with consideration of particle acceleration by a stochastic electric :1e1d. References 12: 6 Russian, 6 Western. ;8-66101 Approved For Release 2001/03/26 : CIA-RDP96-00787ROO0500130048-3  Approved For Release 2001/03/26 : CIA-RDP96-00787R000500130048-3 CDC 541.124/128 NONEQUILIBRIUM VIBRATIONAL MOLECULAR EXCITATION BEHIND SHOCK WAVE FRONT IN GASES Novosibirsk ZHURNAL PRIKLADNOY MEKHANIKI I TEKHNICHESKOY FIZIKI in Russian No 5(129), Sep-Oct 81 (manuscript received 25 Jun 80) pp 49-54 DOBKIN, S. V. and SON, E. Ye., Moscow [Abstract] Previous research has shown that when a shock wave propagates through a light gas doped slightly with a heavy gas, the length of transla- tional relaxation of the heavy molecules is approximately mG/m times longer than for the light molecules (where mG and mL are the masses of the heavy and light components). This is because a large number of collisions is needed to slow down a heavy particle. In this paper, a qualitative analysis is made of phenomena that take place in deceleration of a molecule made up of atoms with masses mH and mF in a medium of particles of mass mL (mH>>mF,~mL). The fraction of vibrational energy transmitted to the molecule as it is decelerated in the light gas is calculated, and an examination is made of relaxation of the vibrational energy of molecules described by harmonic oscillators in the zone of deceleration in the light gas behind the shock wave front. It is shown that shock wave propagation in such a medium may be accompanied by a process of "nonequilibrium" excitation of the heavy gas molecules in which the vibrational temperature may rise to levels that exceed the gas temperature behind the shock wave front in contrast to the equilibrium case. An example of calculation of the vibrational energy in a shock wave in a mixture of helium with uranium hexafluoride is given. The possibility of experimental confirma- tion is discussed. Figures 2, references 7: 5 Russian, 2 Western. [70-66101 Approved For Release 2001/03/26 : CIA-RDP96-00787R000500130048-3