Geodesic
Asymptotic behavior of the solutions to a one-dimensional motion of compressible viscous fluids
Mathematica Bohemica, Tome 120 (1995) no. 4, pp. 431-443

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We study the one-dimensional motion of the viscous gas represented by the system $v_t-u_x = 0$, $ u_t+ p(v)_x = \mu(u_x/v)_x + f \left( \int_0^xv\dd x,t \right)$, with the initial and the boundary conditions $(v(x,0), u(x,0)) = (v_0(x), u_0(x))$, $u(0,t) = u(X,t) = 0$. We are concerned with the external forces, namely the function $f$, which do not become small for large time $t$. The main purpose is to show how the solution to this problem behaves around the stationary one, and the proof is based on an elementary $L^2$-energy method.
We study the one-dimensional motion of the viscous gas represented by the system $v_t-u_x = 0$, $ u_t+ p(v)_x = \mu(u_x/v)_x + f \left( \int_0^xv\dd x,t \right)$, with the initial and the boundary conditions $(v(x,0), u(x,0)) = (v_0(x), u_0(x))$, $u(0,t) = u(X,t) = 0$. We are concerned with the external forces, namely the function $f$, which do not become small for large time $t$. The main purpose is to show how the solution to this problem behaves around the stationary one, and the proof is based on an elementary $L^2$-energy method.
DOI : 10.21136/MB.1995.126088
Classification : 35B40, 35Q30, 35Q35, 76N10, 76N15
Keywords: asymptotic behavior of solutions; one-dimensional motion of the viscous gas; compressible viscous gas 
Yanagi, Shigenori. Asymptotic behavior of the solutions to a one-dimensional motion of compressible viscous fluids. Mathematica Bohemica, Tome 120 (1995) no. 4, pp. 431-443. doi: 10.21136/MB.1995.126088
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