Affiliation:
1. Department of Mathematics , Netaji Subhas University of Technology, Sector-3 , Dwarka, New Delhi–110 078 , India
Abstract
Abstract
A system of hyperbolic differential equations outlining one-dimensional planar, cylindrical symmetric and spherical symmetric flow of a relaxing gas with dust particles is considered. Singular surface theory used to study different aspects of wave propagation and its culmination to the steepened form. The evolutionary behavior of the characteristic shock is studied. A particular solution of the governing system of equations is used to discuss the steepened wave form, characteristic shock and their interaction. The results of the interaction between the steepened wave front and the characteristic shock using the general theory of wave interaction are discussed. Also, the influence of relaxation and dust parameters on the steepened wave front, the formation of a characteristic shock, reflected and transmitted waves after interaction and a jump in shock acceleration are investigated.
Subject
Physical and Theoretical Chemistry,General Physics and Astronomy,Mathematical Physics
Reference42 articles.
1. M. Chadha and J. Jena, Comp. Appl. Math. 34, 729 (2014).
2. E. Varley and E. Cumberbatch, J. Inst. Math. Applics. 1, 101 (1965).
3. A. C. Eringen and E. S Suhubi, Elastodynamics: Finite Motions, New York, Academic Press 1974.
4. P. J. Chen, Arch. Ration. Mech. Anal. 43, 350 (1971).
5. M. F. McCarthy, in: Continuum Physics (Ed. A. C. Eringen), 2, Academic Press, London 1975, p. 449.
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