[1] | J. P. Vishwakarma and G. Nath, Similarity solutions for unsteady flow behind an exponential shock in a dusty gas, Physica Scripta, IOP, U.K., Vol.74 (2006), 493-498 |
[2] | J. P. Vishwakarma and G. Nath, Converging detonation waves in a dusty gas, Journal of Technical Physics, Polish Academy, Poland, Vol.47 Parts III (2006), 159-173 |
[3] | J. P. Vishwakarma and G. Nath, Similarity solutions for the flow behind an exponential shock in a non-ideal gas, Meccanica, Springer, Italy, Vol.42 (2007), 331-339 |
[4] | Vinay Chaubey and G. Nath, Magnetogasdynamic shock waves in a non-ideal gas with radiation heat flux, National Academy of Mathematics, India, Vol.15 (2001), 45-57, published in 2006. |
[5] | G. Nath, Shock waves generated by a piston moving in a non-ideal gas in the presence of a magnetic field: isothermal flow, South East Asian Journal of Mathematics and Mathematical Sciences, India, Vol .5 (2)(2007),69-83. |
[6] | J. P. Vishwakarma and G. Nath, Propagation of shock waves in an exponential medium with heat conduction and radiation heat flux, Modell. Meas. Control B, ASME, France, Vol.77 (3) (2008), 67-84. |
[7] | J. P. Vishwakarma and G. Nath and K.K. Singh, Propagation of shock waves in a dusty gas with heat conduction, radiation heat flux and exponentially varying density, Physica Scripta, IOP, U.K.,Vol.78(2008) 035402 (11) |
[8] | J. P. Vishwakarma and G. Nath, Self-similar solution of a shock propagation in a mixture of a non-ideal gas and small solid particles, Meccanica, Springer, Italy, Vol. 44 (2009), 239-254. |
[9] | G. Nath, Propagation of a cylindrical shock wave in a rotational axisymetric dusty gas with exponentially varying density, Research in Astron. Astrophys. 2010 Vol. 10 No. 5, 445–460, IOP, U.K., |
[10] | J. P. Vishwakarma and G. Nath, Propagation of a cylindrical shock wave in a rotating dusty with heat conduction and radiation heat flux, Physica Scripta, IOP, U.K. Vol. 81 (2010) 045401 (9pp) |
[11] | G. Nath, Magnetogasdynamic shock wave generated by a moving piston in a rotational axisymmetric isothermal flow of perfect gas with variable density, Advances in Space Research 47 (2011) 1463–1471, Elsevier Science. |
[12] | J. P. Vishwakarma and G. Nath, Similarity solution for a cylindrical shock wave in a rotational axisymmetric dusty gas with heat conduction and radiation heat flux, Communications in Nonlinear Science and Numerical Simulation, Elsevier Science (2011), doi:10.1016/j.cnsns.2011.04.021 |
[13] | G. Nath and A. K. Sinha, A self-similar flow behind a magnetogasdynamics shock wave generated by a moving piston in a gravitating gas with variable density: isothermal flow, Phys.Res.Inter.Vol. 2011, Article ID 782172, 8 pages. doi:10.1155/2011/782172 |
[14] | G. Nath, Self-similar flow of a rotating dusty gas behind the shock wave with increasing energy, conduction and radiation heat flux, Advances in Space Research 49 (2012) 108–120, doi:10.1016/j.asr.2011.09.008, Elsevier Science. |
[15] | J. P. Vishwakarma and G. Nath, Spherical shock wave generated by a moving piston in mixture of a non-ideal gas and small solid particles under a gravitational field, CommunNonlinearSciNumer Simulat (2011), doi:10.1016/j.cnsns.2011.10.018 |
[16] | G. Nath, Self-similar solution of cylindrical shock wave propagation in a rotational axisymmetric mixture of a non-ideal gas and small solid particles, Meccanica (will be accepted after minor revision nov.2011). |
[17] | G Nath, Similarity solution for unsteady isothermal flow behind a magnetogasdynamic shock wave in a gravitating gas with increasing energy and variable density, Int. J. Eng. Appl. Sci. 2011 (accepted). |