الأبحاث العلمية
[1] Galal AA, Amer TS, Elneklawy
AH, El-Kafly HF, Studying the influence of a gyrostatic moment on the motion of
a charged rigid body containing a viscous incompressible liquid, Eur Phys J
Plus 2023; 138(10): 959.
[2] Amer TS, El-Kafly HF,
Elneklawy AH, Galal AA, Analyzing the spatial motion of a rigid body subjected
to constant body-fixed torques and gyrostatic moment, Sci Rep 2024; 14(1):
5390.
[3] Amer TS, El-Kafly HF,
Elneklawy AH, Galal AA, Analyzing the dynamics of a charged rotating rigid body
under constant torques, Sci Rep 2024; 14(1): 9839.
[4] Amer TS, El-Kafly HF,
Elneklawy AH, Amer WS, Modeling analysis on the influence of the gyrostatic
moment on the motion of a charged rigid body subjected to constant axial
torque, J Low Freq Noise Vib Act Control 2024; 43(4):1593-1610.
[5] Amer TS, Elneklawy AH,
El-Kafly HF, A novel approach to solving Euler’s nonlinear equations for a 3dof
dynamical motion of a rigid body under gyrostatic and constant torques, J
Low Freq Noise Vib Act Control 2024; 44(1): 111-129.
[6] Amer TS, Amer WS, Fakharany
M, Elneklawy AH, El-Kafly HF, Modeling of the Euler-Poisson equations for rigid
bodies in the context of the gyrostatic influences: An innovative methodology, Eur
J Pure Appl Math 2025; 18(1): 5712.
[7] Amer TS, Elneklawy AH,
El-Kafly HF, Analysis of Euler’s equations for a symmetric rigid body subject
to time-dependent gyrostatic torque, J Low Freq Noise Vib Act Control
2025; 44(2): 831-843.
[8] Amer TS, El-Kafly HF,
Elneklawy AH, Galal AA, Stability analysis of a rotating rigid body: The role
of external and gyroscopic torques with energy dissipation, J Low Freq Noise
Vib Act Control 2025; 44(3): 1502-1515.
[9] Amer TS, Elneklawy AH,
El-Kafly HF, Dynamical motion of a spacecraft containing a slug and influenced
by a gyrostatic moment and constant torques, J Low Freq Noise Vib Act
Control 2025; 44(3): 1708-1725.
[10] Elneklawy AH, Analyzing the
Motion of a Charged Rigid Body under the Influence of a Gyrostatic Torque, in
Engineering and Technology for Sustainable Development Conference,
Tanta, 2025. arXiv:2503.00494
[11] Amer TS, Alanazy A,
Elneklawy AH, Amer WS, El-Kafly HF, A novel study on the fourth first integral
for the rotatory motion of an impacted charged rigid body by external torques, J
Low Freq Noise Vib Act Control 2025; 44(4): 1949-1960.
[12] Phan L, Gatti A, Han Z, et
al. Humanity's Last Exam, 2025. arXiv:2501.14249v7
[13] Amer TS, Alanazy A,
Elneklawy AH, Amer WS, El-Kafly HF, Asymptotic solutions for the 3D motion of
asymmetric charged gyrostatic satellite using Poincaré small parameter
technique, Aero Sci Technol 2025; 168: 110764.
[14] Elneklawy AH, Amer TS,
Alanazy A, El-Kafly HF, Sallam AA, Nonlinear dynamical behavior of a
three-degree-of-freedom asymmetric rigid body under gyroscopic torque, J Low
Freq Noise Vib Act Control 2025. doi:10.1177/14613484251385065
[15] Elneklawy AH, Amer TS, Elkilany
SA, Abo Seliem AS, Hegazy N, Damping-based attitude control of a gyrostatic
satellite in resistive media, J Appl Comput Mech 2025. doi:
10.22055/jacm.2025.48699.5434
[16] Elneklawy AH, Amer TS,
El-Kafly HF, Nonlinear dynamical motion of a nearly spherical gyrostat
containing a spherical slug filled with a viscous liquid, J Nonlinear Math
Phys 2025; 32(1): 91.
[17] Amer TS, Elneklawy AH,
El-Kafly HF, Application of Krylov-Bogoliubov-Mitropolski method to asymmetric
gyrostatic 3D motion in multi-fields, Sci Rep 2025; 15(1): 42548.