Browsing by Author "Joshi, Narahari V."

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    A Foundation for Lorentz Force Based on Vibrating Strings as a Compact Fluid
    (Scientific research, 2014-08) Joshi, Narahari V.
    Several aspects related with Lorentz force are discussed in the light of the presence of vibrating strings. Strings are considered as a compact, tension and viscosity-free incompressible liquid. The motion of a charge particle, obviously, represents the “line of vortex” in the medium of fluid. The term (VXB) turns out to be the natural consequence of Vortex dynamics. The present investigation also reveals the nature of the magnetic field and explains why and how this additional term takes part in Lorentz force
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    A New Insight for Faraday’s Law
    (Scientific research, 2014-11) Joshi, Narahari V.
    The origin for one of the fundamental laws of electromagnetism, namely Faraday’s law is explained for the first time on the basis of the presence of strings in the form of a compact liquid. The rate of change of the magnetic field produces a pressure gradient in the medium giving rise to the fluid flow. According to fluid dynamics, the stress and the gradient of strain are originated in the space which creates vibrations in the system and is related with the electric field. The details of the mechanism which produces a circular motion of the electric field, ∇XE, are also addressed