Does three dimensional electromagnetic field inherit the spacetime symmetries?
We prove that the electromagnetic field in a (1+ 2)-dimensional spacetime necessarily
inherits the symmetries of the spacetime metric in a large class of generalized Einstein …
inherits the symmetries of the spacetime metric in a large class of generalized Einstein …
On the various aspects of electromagnetic potentials in spacetimes with symmetries
I Smolić - Classical and quantum gravity, 2014 - iopscience.iop.org
We revise and generalize the properties of the electric and the magnetic scalar potentials in
spacetimes admitting a Killing vector field: their constancy on the Killing horizons …
spacetimes admitting a Killing vector field: their constancy on the Killing horizons …
[PDF][PDF] The problem of conscious observation in relativistic description
RK Pradhan - NeuroQuantology, 2014 - academia.edu
The role of the conscious observer in Relativity theory is investigated with a view to unifying
it with quantum theory on the basis of consciousness. It is argued that contrary to popular …
it with quantum theory on the basis of consciousness. It is argued that contrary to popular …
Nature of electric and magnetic fields; how the fields transform
T Ivezic - arxiv preprint arxiv:1508.04802, 2015 - arxiv.org
In this paper the proofs are given that the electric and magnetic fields are properly defined
vectors on the four-dimensional (4D) spacetime (the 4-vectors in the usual notation) and not …
vectors on the four-dimensional (4D) spacetime (the 4-vectors in the usual notation) and not …
Transform as a vector? Tying functional parity with rotation angle of coordinate axes
S Bhattacharjee - European Journal of Physics, 2019 - iopscience.iop.org
At an undergraduate level, a modern definition of a vector is introduced: a vector is a
quantity which remains unchanged under a rotation of coordinate axes. Using this definition …
quantity which remains unchanged under a rotation of coordinate axes. Using this definition …