Asymptotic behavior of higher-order nonlinear equations on time scales

## a b s t r a c t In this paper, we will study asymptotic behavior of solutions to third-order nonlinear dynamic equations on time scales of the form 1 By using the Riccati technique and integral averaging technique, two different types of criteria are established, one of which extends some exist

In this paper, we are concerned with the following 2nth-order differential equations on time scales are continuous, or g is singular at t = a and/or t = b. We obtain some properties and sharp estimates of the corresponding Green's function and investigate the existence of positive solutions of the

Interval oscillation criteria are established for a second-order nonlinear dynamic equation on time scales by utilizing a generalized Riccati technique and the Young inequality. The theory can be applied to second-order dynamic equations regardless of the choice of delta or nabla derivatives.

This paper is concerned with the oscillation of solutions of neutral difference equation and the asymptotic behavior of solutions of delay difference equation t E I, where I is the discrete set (0, 1,2,. . . } and A is the forward difference operator Ar(t) = z(t+l) --2(t).