Abstract:
In the present paper, the nature of a plane piston moving with constant velocity in a gas with dust particles in the presence of weak gravitational field is analyzed by using a combination of two methods, viz.,
perturbation method and similarity transformation. In perturbation method the physical variables are
expanded as a series of small parameter. The zeroth order result represents the uniform flow which is
affected by dust particles of the mixture without gravity. The first order result shows the consequence
of applied gravity in a dusty gas. The effect of dust particles present in the gas and applied gravity on
the distribution of flow variables has been discussed for the case of weak and strong shock wave. The
structure of the shock wave front is also discussed.
