@article{ijp20261422,
author={Peng, Hui},
title={Spin-Electromagnetics and Spin-Gravity},
journal={International Journal of Physics},
volume={14},
number={2},
pages={28--35},
year={2026},
url={https://pubs.sciepub.com/ijp/14/2/2},
issn={2333-4576},
abstract={The spin of electrons is studied (Spintronics) and applied to, for example, quantum computing. In this article, utilizing UMFT (Universal Mathematical Field Theory), we establish both Spin-Electromagnetics (Spin-EM) from the Coulomb¡¯s law and the spin of electric source, and Spin-gravity from the Newton¡¯s law and the spin of the gravity-g-charge (mass). Spin-EM predicts several new effects including the Spin-Lorentz-type force, and Spin-Lagrangian-Lorentz-type force. When experimentally confirmed, the Spin-force would be a NEW FORCE. The UMFT has been established and utilized to derive the Maxwell electromagnetics (Maxwell-EM) and Maxwell-type gravity (Gravito-EM). UMFT shows that mathematical identities lead to physical dualities, such as the duality between Maxwell-EM, Gravito-EM, Spin-EM, and Spin-gravity. The well-known-concepts, effects, and phenomena of Maxwell-EM may be directly converted to that of Spin-EM and Spin-Gravity. The Maxwell-EM, Gravito-EM, Spin-EM, and Spin-gravity are all derived from UMFT and thus, they are dual to each other, and can be unified in the frame of UMFT.},
doi={10.12691/ijp-14-2-2}
publisher={Science and Education Publishing}
}