When time t ∈ 0 the plane x = 0 separates the half-space x ≥ 0 filled with a gas with zero speed and constant pressure p = p₀ ≥ 0 and density p= p₀ > 0 from the vacuum area x < 0. When time t ≥ 0 the whole gas area up to the border with vacuum is under the influence of an energy input with the intensity Q₀ that is constant in time and in space. A peculiarity of the emerged current which asymp-totics is studied in the present work is the fact that the border with vacuum stops to be free independently of whether the initial pressure was zero or finite: the pressure at the borders becomes finite and the motion of the border itself acquires an acceleration.

Mathematical modelling in actual problems of science and technics

Kazhdan Ya. M.,  KIAM RAS