Saturday, January 25, 2020
Differences In Types Of Lagrangian And Scalar Amount Of Charge
Let's say that one were to be considering two different charged mass-bearing orbifold eigensets. Let's say that both of such said orbifold eigensets, are to work to bear the same covariant relativistic transversal velocity, in their relationship to the motion of electromagnetic energy. Let's next say that both of such said orbifold eigensets, are here to work to bear the same scalar amplitude of both a tense of spin-related momentum and of a tense of orbit-related momentum, over the evenly-gauged Hamiltonian eigenmetric -- in which the covariant motion of both of such said orbifold eigensets is here to be considered. One of such said orbifold eigensets is here to be traveling via a binary Lagrangian, whereas the other of such said orbifold eigensets is here to be traveling via a tertiary Lagrangian. The orbifold eigenset that is to be considered in this particular case, that is here to be traveling via a tertiary Lagrangian, will then have more of a tendency of working to bear a greater scalar amount of charge. To Be Continued! Sincerely, Samuel David Roach.
Posted by
samsphysicsworld
at
1:21 PM
Labels:
charged,
electromagnetic,
energy,
Hamiltonian eigenmetric,
Lagrangian,
momentum,
orbifold eigensets,
scalar amplitude,
spin,
work
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