dr inż. Jakub Maksymiuk
Zatrudnienie
- Adiunkt w Instytut Matematyki Stosowanej
Obszary badawcze
Kontakt dla biznesu
- Lokalizacja
- Al. Zwycięstwa 27, 80-219 Gdańsk
- Telefon
- +48 58 348 62 62
- biznes@pg.edu.pl
Media społecznościowe
Kontakt
- jakub.maksymiuk@pg.edu.pl
Adiunkt
- Miejsce pracy
- Gmach B pokój 610 B
- Telefon
- (58) 347 21 71
Wybrane publikacje
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Anisotropic Orlicz–Sobolev spaces of vector valued functions and Lagrange equations
In this paper we study some properties of anisotropic Orlicz and Orlicz–Sobolev spaces of vector valued functions for a special class of G-functions. We introduce a variational setting for a class of Lagrangian Systems. We give conditions which ensure that the principal part of variational functional is finitely defined and continuously differentiable on Orlicz–Sobolev space.
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Mountain pass type periodic solutions for Euler–Lagrange equations in anisotropic Orlicz–Sobolev space
Using the Mountain Pass Theorem, we establish the existence of periodic solution for Euler–Lagrange equation. Lagrangian consists of kinetic part (an anisotropic G-function), potential part and a forcing term. We consider two situations: G satisfying at infinity and globally. We give conditions on the growth of the potential near zero for both situations.
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Homoclinic orbits for a class of singular second order Hamiltonian systems in ℝ3
We consider a conservative second order Hamiltonian system \ddot{q}+ ∇V(q)=0 in R3 with a potential V having a global maximum at the origin and a line l ∩ {0} = ∅ as a set of singular points. Under a certain compactness condition on V at infinity and a strong force condition at singular points we study, by the use of variational methods and geometrical arguments, the existence of homoclinic solutions of the system.
Uzyskane stopnie/tytuły naukowe
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2014-01-23
Nadanie stopnia naukowego
dr Dziedzina nauk matematycznych ()Instytut Matematyczny PAN
wyświetlono 2832 razy