Open AccessOn strongly irregular periodic solutions of the linear nonhomogeneous discrete equation of the first order
Author(s) -
А. К. Деменчук
Publication year - 2020
Publication title -
vescì nacyânalʹnaj akadèmìì navuk belarusì. seryâ fìzìka-matèmatyčnyh navuk
Language(s) - English
Resource type - Journals
eISSN - 2524-2415
pISSN - 1561-2430
DOI - 10.29235/1561-2430-2020-56-1-30-35
Subject(s) - mathematics , differential equation , mathematical analysis , period (music) , independent equation , scalar (mathematics) , ordinary differential equation , linear differential equation , order (exchange) , partial differential equation , class (philosophy) , physics , geometry , finance , artificial intelligence , computer science , acoustics , economics
As is proved earlier (the Massera theorem), the first-order scalar periodic ordinary differential equation does not have strongly irregular periodic solutions (solutions with a period incommensurable with the period of the equation). For difference equations with discrete time, strong irregularity means that the equation period and the period of its solution are relatively prime numbers. It is known that in the case of discrete equations, the mentioned result has no complete analog. The purpose of this paper is to investigate the possibility of realizing an analog of the Massera theorem for certain classes of difference equations. To do this, we consider the class of linear difference equations. It is proved that a linear nonhomogeneous non-stationary periodic discrete equation of the first order does not have strongly irregular non-stationary periodic solutions.