Asymptotics for nonlinear heat equations

In this paper the quasilinear heat equation with the nonlinear boundary condition is studied. The blow-up rate and existence of a self-similar solution are obtained. It is proved that the rescaled function v(y, t) = (Tt) 1/(2p+α-2) u((Tt) (p-1)/(2p+α-2) y, t), behaves as t → T like a nontrivial self

We present an algorithm for constructing approximate solutions to nonlinear wave propagation problems in which diffractive effects and nonlinear effects come into play on the same time scale. The approximate solutions describe the propagation of short pulses. In a separate paper the equations used t

This paper discusses a class of second-order nonlinear differential equations. By using the generalized Riccati technique and the averaging technique, new oscillation criteria are obtained for all solutions of the equation to be oscillatory. Asymptotic behavior for forced equations is also discussed

We prove intermediate asymptotics results in L' for gcncral nonlinear diffusion eqnations which behave like power laws at the origin using relative entropy methods and generalized Sob&v inequalities.

In this paper, we show asymptotic formulae for solutions of the nonlinear functional difference equation y(n + 1) = L(yn) + V(n, yn) + f(n, Yn), where yn(O) = y(n + O) for 0 • {-r, -r + 1,..., 0}, L, V(n, .) are linear applications, and f(n, .) is not necessarily linear defined from {-r,-r+ 1,... ,0