Existence of nonoscillatory solutions for forced higher order differential equations;

The existence of nonoscillatory solution of a third order quasilinear differential equation;

The existence of nonoscillatory solutions for higher order nonlinear neutral system of difference equations;

The classification of nonoscillatory solutions and the oscillation behavior of bounded solution for the unstable difference equations;

Some new sufficient conditions are also derived for the convergence of nonoscillatory solutions of(1) to zero.

Some sufficient conditions of asymptotic behavior for nonoscillatory solutions of the highter order nonlinear defference equation is obtained on the basic of discrte kneser theorem,the results perfect some know results of the highter order neutral defference equation.

Consider a class of neutral difference equation with !maxima", some results for the asymptotical properties of all non-oscillatory solutions of the equation are obtained, that is, sufficient conditions for all non-oscillatory solutions {x-n} satisfying {lim}n→∞ x-n=0 or {lim}n→∞｜x-n｜=∞ are obtained, which extend the corresponding results of the references.

This paper discusses the asymptotic behavior of non-oscillatory solutions of a class higher order linear differential equationy(n)+p(t)y′+q(t)y=0Some sufficient condition for the asymptotic behavior of non-oscillatory solutions of the equation are obtained.

Asymptotic behavior for the oscillatory solutions and non-oscillatory solutions for a class of high order non-linear neutral differential equations.

Asymptotic property of the nonoscillatary solutions of a class of nonlinear parabolic differential equations of neutral type is discussed.

Using Krasnoselskii fixed point theorem, the necessary and sufficient conditions for existence of nonoscillatary solutions are obtained, which tend to constant vector with positive components(or negative components) for a class of first order nonlinear neutral differential systems.

Sufficient conditions are obtained for oscillation of all solutions and existing nonoscillatary solution of the equations.

The purpose of this paper is to prove the existence of non-oscillatory solutions to second-order neutral time-lag differential equation with positive/negative coefficient by using contraction-image principle through defining an operator from a bounded,closed,and convex subset into Banach space.

By using Banach compression-imaging principle,the authors have made a discussion over the asymptotic behavior of non-oscillatory solutions to first-order neutral differential equation with forcing term,obtaining the sufficient conditions for every non-oscillatory solutions to the equation hereinabove tends to zero when t tends to infinity(t→∞).

The existence and asymptotic behaviour of non-oscillatory solutions of this equation are studied.

Chatper three proves, by using Banach compressed fixed point theorem, the exis-tence of nonoscillatory numerical solution in second-order neutral delay differential equa-tion and makes evolution of original prove of Cheng’s paper.