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Title: A note on the existence of solutions with prescribed asymptotic behavior for half-linear ordinary differential equations (English)
Author: Naito, Manabu
Language: English
Journal: Mathematica Bohemica
ISSN: 0862-7959 (print)
ISSN: 2464-7136 (online)
Volume: 149
Issue: 3
Year: 2024
Pages: 317-336
Summary lang: English
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Category: math
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Summary: The half-linear differential equation $$ (|u'|^{\alpha }{\rm sgn} u')' = \alpha (\lambda ^{\alpha + 1} + b(t))|u|^{\alpha }{\rm sgn} u, \quad t \geq t_{0}, $$ is considered, where $\alpha $ and $\lambda $ are positive constants and $b(t)$ is a real-valued continuous function on $[t_{0},\infty )$. It is proved that, under a mild integral smallness condition of $b(t)$ which is weaker than the absolutely integrable condition of $b(t)$, the above equation has a nonoscillatory solution $u_{0}(t)$ such that $u_{0}(t) \sim {\rm e}^{- \lambda t}$ and $u_{0}'(t) \sim - \lambda {\rm e}^{- \lambda t}$ ($t \to \infty $), and a nonoscillatory solution $u_{1}(t)$ such that $u_{1}(t) \sim {\rm e}^{\lambda t}$ and $u_{1}'(t) \sim \lambda {\rm e}^{\lambda t}$ ($t \to \infty $). (English)
Keyword: half-linear differential equation
Keyword: nonoscillatory solution
Keyword: asymptotic form
MSC: 34C11
MSC: 34D05
MSC: 34D10
DOI: 10.21136/MB.2023.0158-22
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Date available: 2024-09-11T13:45:36Z
Last updated: 2024-09-11
Stable URL: http://hdl.handle.net/10338.dmlcz/152537
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