时间尺度上四阶差分方程解的渐近性质

Q4 Mathematics

Tatra Mountains Mathematical Publications Pub Date : 2023-06-01 DOI:10.2478/tmmp-2023-0016

U. Ostaszewska, E. Schmeidel, M. Zdanowicz

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引用次数: 0

摘要

给出了时间尺度(a(t)xΔ2(t) Δ2=b(t)f(x(t))+c(t)上四阶非线性动力方程解存在性的充分判据。 {\left（ {a\left(1) \right）{x^{{\Delta ^2}}}\left(1) \right）} \right)^{{\Delta ^2}}} = b\left(1) \right)f\left（ {x\left(1) \right）} \right) + c\left(1) \right)，使得对于给定函数y:→→()存在一个解x:→→()到具有渐近行为的被考虑方程x(t)=y(t)+o(1tβ) x\left(1) \right) = y\left(1) \right) + 0\left（ {{1 \over {{t^\beta }}}} \right） . 所提出的结果被应用于研究经典欧拉-伯努利梁方程的解，这意味着它涵盖了情况的结果= m。

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Asymptotic Properties of Solutions to Fourth-Order Difference Equations on Time Scales

Abstract We provide sufficient criteria for the existence of solutions for fourth-order nonlinear dynamic equations on time scales (a(t)xΔ2(t))Δ2=b(t)f(x(t))+c(t), {\left( {a\left( t \right){x^{{\Delta ^2}}}\left( t \right)} \right)^{{\Delta ^2}}} = b\left( t \right)f\left( {x\left( t \right)} \right) + c\left( t \right), such that for a given function y : 𝕋 → ℝ there exists a solution x : 𝕋 → ℝ to considered equation with asymptotic behaviour x(t)=y(t)+o(1tβ) x\left( t \right) = y\left( t \right) + o\left( {{1 \over {{t^\beta }}}} \right) . The presented result is applied to the study of solutions to the classical Euler–Bernoulli beam equation, which means that it covers the case 𝕋 = ℝ.

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来源期刊

Tatra Mountains Mathematical Publications Mathematics-Mathematics (all)

CiteScore

1.00

自引率

0.00%

发文量