On the relation between mass and charge: a pure geometric approach
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In this article, a new solution to the field equations of the generalized field theory, constructed by Mikhail and Wanas in 1977, has been obtained, and the geometric structure used, in the present application, is an absolute parallelism (AP)-space with spherical symmetry.Abstract:
A new solution to the field equations of the generalized field theory, constructed by Mikhail and Wanas in 1977, has been obtained. The geometric structure used, in the present application, is an absolute parallelism (AP)-space with spherical symmetry (type FIGI). The solution obtained represents a generalized field outside a charged massive central body. Two schemes have been used to get the physical meaning of the solution: The first is related to the metric of the Riemannian space associated with the AP-structure. The second is connected to a covariant scheme known as Type Analysis. It is shown that the dependence on both schemes for interpreting the results obtained, is better than the dependence on the metric of the Riemannian space associated with the AP-structure. In general, if we consider the solution obtained as representing a geometric model for an elementary charged particle, then the results of the present work can be summarized in the following points. (i) It is shown that the mass of the particle is made up of two contributions: the first is the gravitational contribution, and the second is the contribution due to the existence of charge. (ii) The model allows for the existence of a charged particle whose mass is completely electromagnetic in origin. (iii) The model prevents the existence of a charged massless particle. (iv) The electromagnetic contribution, to the mass, is independent of the sign of the electric charge. (v) It is shown that the mass of the electron (or a positron) is purely made of its charge.read more
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Teleparallel Lagrange geometry and a unified field theory
TL;DR: In this paper, a field theory unifying gravity and electromagnetism in the context of extended absolute parallelism (EAP) geometry was constructed, which is a generalization of the generalized field theory (GFT) formulated by Mikhail and Wanas.
Journal ArticleDOI
The Hidden Flat Like Universe II: Quasi inverse power law inflation by $f(T)$ gravity
TL;DR: In this article, Hanafy and Nashed proposed a quasi inverse power law inflation with an additional constant providing an end of the inflation with no need to an extra mechanism, which is consistent with the early cosmic inflation epoch.
Journal ArticleDOI
Extended absolute parallelism geometry
Nabil L. Youssef,A. M. Sid-Ahmed +1 more
Abstract: In this paper, we study Absolute Parallelism (AP-) geometry on the tangent bundle TM of a manifold M. Accordingly, all geometric objects defined in this geometry are not only functions of the positional argument x, but also depend on the directional argument y. Moreover, many new geometric objects, which have no counterpart in the classical AP-geometry, emerge in this different framework. We refer to such a geometry as an Extended Absolute Parallelism (EAP-) geometry. The building blocks of the EAP-geometry are a nonlinear connection (assumed given a priori) and 2n linearly independent vector fields (of special form) defined globally on TM defining the parallelization. Four different d-connections are used to explore the properties of this geometry. Simple and compact formulae for the curvature tensors and the W-tensors of the four defined d-connections are obtained, expressed in terms of the torsion and the contortion tensors of the EAP-space. Further conditions are imposed on the canonical d-connection assuming that it is of Cartan type (resp. Berwald type). Important consequences of these assumptions are investigated. Finally, a special form of the canonical d-connection is studied under which the classical AP-geometry is recovered naturally from the EAP-geometry. Physical aspects of some of the geometric objects investigated are pointed out and possible physical implications of the EAP-space are discussed, including an outline of a generalized field theory on the tangent bundle TM of M.
Journal ArticleDOI
Torsion and Particle Horizons
M. I. Wanas,Heba A. Hassan +1 more
TL;DR: In this paper, the existence of non-vanishing torsion field may solve the particle horizons problem in general relativity cosmology, and the field equations of general relativity (GR) are written in a space having non vanishing torsions, the absolute parallelism space.
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Generic Phase Portrait Analysis of the Finite-time Singularities and Generalized Teleparallel Gravity
W. El Hanafy,Gamal G. L. Nashed +1 more
TL;DR: In this paper, the authors analyze the common four types of the finite-time singularities using a generic framework of the phase portrait geometric approach, which requires that the Friedmann system to be written as a one dimensional autonomous system.
References
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Auf die Riemann-Metrik und den Fern-Parallelismus gegründete einheitliche Feldtheorie
Book ChapterDOI
Chapter 5 – constant electromagnetic fields
TL;DR: In this article, the Coulomb law states that the field produced by a point charge is inversely proportional to the square of the distance from the charge to the point of interest.
Journal ArticleDOI
Sources for the Reissner-Nordstrom metric
F. I. Cooperstock,V. de la Cruz +1 more
TL;DR: In this article, physically motivated static sources for the Reissner-Nordstrom metric were found for a generalization of the Schwarzschild interior solution representing a sphere of constant nongravitational energy density.
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