Electrohydrodynamic Stability of Self-gravitating Fluid Cylinder
M. L. Matta1; zeinab mohamed ibrahim ismail; A. A. Hasan; S. S. Elazab;
Abstract
Electrohydrodynamic Stability consists of a fluid cylinder with self-gravitation A self-gravitating tenuous
medium surrounds it. that is permeated by a transversely variable electric field while being affected by self-gravitating
forces, Capillary, and Electrical Forces is covered across all axisymmetric and (non)axisymmetric perturbation types.
The problem is solved and all individual solutions are excluded. The model stabilizes as a result of continuous Electric
field stability in all perturbation modes. In a narrow area of the axisymmetric perturbation. It has been established that
self-gravitating and capillary forces have a destabilizing effect. However, the present model instability is improved
and modified by self-gravitating and capillary forces' stabilizing effects in all large axisymmetric fields and
(non)axisymmetric domains.
medium surrounds it. that is permeated by a transversely variable electric field while being affected by self-gravitating
forces, Capillary, and Electrical Forces is covered across all axisymmetric and (non)axisymmetric perturbation types.
The problem is solved and all individual solutions are excluded. The model stabilizes as a result of continuous Electric
field stability in all perturbation modes. In a narrow area of the axisymmetric perturbation. It has been established that
self-gravitating and capillary forces have a destabilizing effect. However, the present model instability is improved
and modified by self-gravitating and capillary forces' stabilizing effects in all large axisymmetric fields and
(non)axisymmetric domains.
Other data
| Title | Electrohydrodynamic Stability of Self-gravitating Fluid Cylinder | Authors | M. L. Matta1; zeinab mohamed ibrahim ismail ; A. A. Hasan; S. S. Elazab | Keywords | Electrohydrodynamic, Stability, Self- gravitating, Electric field, and Capillary. | Issue Date | Jan-2024 | Publisher | Information Sciences letters | Volume | 13 | Issue | 1 | Start page | 1 | End page | 10 | Description | stability of fluid |
DOI | http://dx.doi.org/10.18576/isl/130101 |
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