Physics
Scientific paper
Oct 1981
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1981jmps...15..497k&link_type=abstract
Journal of Mathematical and Physical Sciences, vol. 15, Oct. 1981, p. 497-509.
Physics
Cylindrical Waves, Gravitational Effects, Magnetohydrodynamic Waves, Shock Waves, Stellar Models, Density Distribution, Magnetic Fields, Nonuniformity, Pressure Distribution, Shock Fronts, Velocity Distribution
Scientific paper
The propagation of a hydrodynamic cylindrical variable energy blast wave through a self-gravitating gas is studied by a modified similarity method. The analysis shows that the effects of non-uniformity caused by self-gravitation of the gas appear essentially in the third order for all permissible values of a constant beta. The dependence of the flow variables on the nonuniformity of the medium and the strength of energy input is discussed for both magnetic and non-magnetic cases. Pressure, density, and velocity distributions for different positions of shock front are presented, and it is observed that an increase in the magnetic field leads to an increase in shock velocity.
Agarwal K. L.
Kumar Sanjeev
Prakash Hari
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