Stability and asymptotic behavior of solutions for some linear partial functional differential equations in critical cases

Global existence and asymptotic behavior of solutions for degenerate parabolic equations including \(u_{t}=\lambda \operatorname{div}\left(|\nabla u|^{p-2} \nabla u\right)+|u|^{q-2} u\left(1-|u|^{\gamma}\right)\) are studied, where \(\lambda\) is a positive parameter; \(p>2, q \geq 2\) and \(r>0\) a

In the paper the following differential equation We say that the equation is ''almost linear'' if the condition lim t→+∞ µ(t) = 1 is fulfilled, while if there exists λ ∈ (0, 1) (λ ∈ (1, +∞)) such that µ(t) ≤ λ (µ(t) ≥ λ), then we say that the equation is an essentially nonlinear differential equati

In this paper we shall consider the existence, uniqueness, and asymptotic behavior of mild solutions to stochastic partial functional differential equations with finite delay r > 0: dX(t)=[ -AX(t)+f(t, X t )] dt+g(t, X t ) dW(t), where we assume that -A is a closed, densely defined linear operator a

This paper is concerned with the stability and asymptotic stability of θ -methods for the initial value problems of nonlinear stiff Volterra functional differential equations in Banach spaces. A series of new stability and asymptotic stability results of θ-methods are obtained.