Ether as an electro-gravimagnetic field, its density and properties
Alexeyeva L.A.
20 June 2024al-Farabi Kazakh State National University
International Journal of Mathematics and Physics
2024#15Issue 133 - 39 pp.
Based on biquaternion wave (biwave) equations, a biquaternionic model of the ether is devel-oped – an electro-gravimagnetic field, the state of which is described by the biquaternion of the strength of EGM field. Its complex scalar part determines the density of the ether, and the complex vector part characterizes the strength of the electric and gravimagnetic fields. The biquaternion gradient of the ether biquaternion determines the biquaternion of EGM charge-current, which contains in the scalar part the electric charge and gravitational mass, and the vector part is formed by electric and gravimagnetic cur-rents. Special cases of these biwave equations are the biquaternionic representation of the Maxwell and Dirac equations. Representations of biquaternion of photons and elementary atoms are obtained as partial stationary solutions of biwave equations with a fixed oscillation frequency. The presence of a gravitational component of the EGM field of the photon is shown, which explains the light pressure. Using the biquaternion model of the atom, a periodic system of atoms is constructed based on the structure of a simple musical scale. A field analogue of Newtons second law is presented as a biquaternion generalization of the Dirac system of equations. It describes the transformation of the EGM charge-current biquaternion under the influence of an external EGM field. It contains, in addition to all known physical forces, a number of new forces that are proposed for discussion and experimental verification. The biquaternion representation of Newtons third law of action and reaction in the scalar part is a well-known analogue of Bettis law on the power of forces acting on EGM charges and currents.
Bettis law , bigradients , biquaternion wave , complex vector , electro-gravimagnetic field
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Institute of Mathematics and Mathematical Modeling of Ministry of Science and Higher Education of the Republic of Kazakhstan, Almaty, Kazakhstan
Institute of Mathematics and Mathematical Modeling of Ministry of Science and Higher Education of the Republic of Kazakhstan
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