TY  - BOOK
AU  - Kyrillos Ezzat Adly ElAbd,
AU  - Mamdouh Isaac Wanas
AU  - Samah Nabil Osman
TI  - Pure geometric field theories and einstein non-symmetric theory: comparative study of motion 
U1  - 500.5 
PY  - 2025///
KW  - Space sciences
KW  - Ø¹ÙÙÙ Ø§ÙÙÙÙ ÙØ§ÙÙØ¶Ø§Ø¡
KW  - Einstein non
KW  - symmetric geometry
KW  - non-symmetric connection
KW  - Einstein metricity condition
KW  - BaÅ¼aÅski approach
KW  - path equations
KW  - Einstein unified field theory
KW  - ÙÙØ¯Ø³Ø© Ø§ÙÙØ´ØªØ§ÙÙ Ø§ÙØºÙØ± ÙØªÙØ§Ø«ÙØ©
KW  - ØªØ±Ø§Ø¨Ø· Ø§ÙÙØ´ØªØ§ÙÙ Ø§ÙØºÙØ± ÙØªÙØ§Ø«Ù
N1  - Thesis (M.Sc)-Cairo University, 2025; Bibliography: pages 85-90; Issues also as CD
N2  - The present work is oriented to review the previous attempts to derive the path equations in
the context of pure geometric field theories then derive a novel path equations within Einstien
non-symmetric geometry . Utilizing BaÅ¼aÅskiâs method, two distinct classes of path equations
are derived within Einsteinâs non-symmetric geometry. The first class governs the motion of a
test particle under the influence of a gravitational field, while the second represents the path
of charged particles. For charged particles, the path equations generate the Lorentz force
and may indicate possible interactions between torsion and the electromagnetic potential,
even when the electromagnetic force is absent. These path equations are formulated based on
the Einstein non-symmetric connection, for which an explicit formula, satisfying the Einstein
metricity condition, has been localized from the recent global formula by Ivanov-Zlatanoviâc; ØªØªÙØ§ÙÙ ÙØ°Ù Ø§ÙØ¯Ø±Ø§Ø³Ø© Ø¹Ø±Ø¶ ÙÙÙØ­Ø§ÙÙØ§Øª Ø§ÙØ³Ø§Ø¨ÙØ© ÙØ§Ø´ØªÙØ§Ù ÙØ¹Ø§Ø¯ÙØ§Øª Ø§ÙÙØ³Ø§Ø± ÙÙ Ø³ÙØ§Ù ÙØ¸Ø±ÙØ§Øª Ø§ÙØ­ÙÙÙ Ø§ÙÙÙØ¯Ø³ÙØ© Ø§ÙØ¨Ø­ØªØ©
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