A New Form of Quantum Mechanical Wave Equation Unifying Quantum Mechanics and Electro-Magnetics ()
ABSTRACT
The Schr?dinger differential equation is what we usually solve for the microscopic
particles in non-relativistic
quantum mechanics. Niels Bohr suggested the power two of the (usually) complex answer
shows the probability of the particle’s existence at a point of space. Also, the
time dependence of Schrodinger wave equation is one whereas for light in electromagnetism
is two. In this paper, we show a
solution for both problems. We derive a Wave Equation for the energy of every system.
This electromagnetic wave equation is shown to
convert to those classical (i.e. the Schrodinger)
and special relativistic (i.e. Klein-Gordon) quantum
mechanical equations. Also, accordingly there definitely is a physical meaning to
answer to this wave equation. And therefore, switching the probabilistic interpretation
of quantum mechanics to a deterministic one as (Albert) Einstein demanded.
Share and Cite:
Angha, S. and Enejad, S. (2022) A New Form of Quantum Mechanical Wave Equation Unifying Quantum Mechanics and Electro-Magnetics.
Journal of Analytical Sciences, Methods and Instrumentation,
12, 25-30. doi:
10.4236/jasmi.2022.122002.
Cited by
No relevant information.