The Gravitomagnetic and Field Magnetic Centrifugal Force Using Force and Four-Dimensional Potential Concepts

作     者：Mohamed Yahia Shirgawi Zoalnoon Ahmed Abeid Allah Saad Mubarak Dirar Abd-Alla Yagoub Mohamed Yahia Shirgawi;Zoalnoon Ahmed Abeid Allah Saad;Mubarak Dirar Abd-Alla Yagoub

作者机构：Department of Physics Faculty of Art and Science at Al Muznab Al Qassim University Buraydah Saudi Arabia Department of Physics Faculty of Arts and Sciences at Dhahran Aljanoub King Khalid University Abha Saudi Arabia Department of Physics Faculty of Science Sudan University of Science and Technology Khartoum Sudan 

出 版 物：《Natural Science》 (自然科学期刊（英文）)

年 卷 期：2022年第14卷第3期

页      面：125-132页

学科分类：07[理学] 0701[理学-数学] 070101[理学-基础数学] 

主　　题：Gravitomagnetic Force Magnetic Force Newton Force Special Relativity Centrifugal Force Energy Lagrangian 

摘      要：Unification of fundamental forces is the dream of physics. Nevertheless, unfortunately gravitational force operators to be isolated in its geometrical content from other forces. This encourages some researchers to propose the so-called gravimagnetic field to unify gravity with other forces and to explain some cosmological problems at the early universe. This motivates to construct a new model to confirm the existence of gravitomagnetic and a corresponding magnetic field associated with any field. Using the formal Newton definition of force and considering the magnetic force to be related to the time varying mass, the magnetic force is shown to be equal to the centrifugal force. This equality is typical when treating a particle as string. Using also the definition of force in terms of potential and electric force only, energy is shown to be conserved. The Newton force can be defined also in terms of four-dimensional potential with the time varying part related to the magnetic potential. When the particle is treated as a string, energy conservation holds, while for ordinary particle, the Lagrangian is conserved. The energy conservation holds for special relativity also for energy per unit mass. The definition of acceleration for forces that obeys inverse square law shows also the magnetic force is equal to the centrifugal force.