[music: Naqshbandi]
[music: Naqshbandi]
The Logical Interpretation of Quantum
Mechanics based on the Duality of Time Theory.
In this video, we shall explain how
the duality of time theory could
provide the first logical interpretation
of quantum mechanics. It will be also
shown how this theory could unify all
fundamental interactions and lead to full
quantum field theory of gravity. Don't
forget to watch the previous video in
which we explained how all the three
principles of special and general
relativity are derived from the duality
of time postulate.
The duality of time postulate states
that: at every instance of the outward
normal level of time, space and matter
are perpetually being recreated in one
linear chronological sequence, which
forms the inward levels of time, that are
also nested inside each lower dimension
of space.
This means that at every instance of the
real flow of time, there is only one
metaphysical point that is the unit of
space-time geometry, and the universe is
a result of its perpetual recurrence in
the inner levels of time, which is
continuously and perpetually recreating
the dimensions of space, and what it may
contain of matter particles, which then
kinetically evolve throughout the outer
normal level of time that we encounter.
This geometrical point is the single
monad that has been explained in the
first volume of this series.
The foundations of quantum mechanics
were established during the first half
of the 20th century, based on various
experimental observations which
confirmed that light, as well as matter,
sometimes behave as spreading waves, and
sometimes as localized particles.
Although it has been successfully
applied in quantum mechanics, this wave
particle duality is still an ongoing
conundrum in modern physics, and it is
actually rooted in the ancient
philosophical dispute between the
continuous and discrete structure of
space, or the atomic and substance
theories of matter. The problem is that
particles and waves are two contrasting
phenomena; so they cannot describe the
same thing at the same time. Einstein
summarized this problem by saying:
"we have two contradictory pictures of
reality; separately neither of them fully
explains the phenomena of light, but
together they do."
The wave-particle duality is deeply
embedded into the foundations of quantum
mechanics, because all the information
about a particle is encoded in its
wavefunction that evolves according to
the Schrodinger equation. Even for
particles with mass, this equation has
solutions that follow the form of the
wave equation, whose propagation leads to
wave-like phenomena, such as interference
and diffraction. What is even more
perplexing is that these wave phenomena
are sometimes exhibited by single
particles that are moving separately
from each other, as in single particle
interference experiments.
Feynman confirmed that such phenomena are
absolutely impossible to explain in any
classical way.
Additionally, because of this weird wave
nature of particles, it is impossible to
determine the position and momentum at
the same time. This theoretical limit is
called the Uncertainty Principle, which
also implies that the observer
inevitably affects the results of the
observation. Other weird consequences
also include quantum entanglement, as in the
famous EPR experiment which leads to
non-local interactions that violate the
principles of relativity.
Actually, the wave-particle duality is a
fundamental fact of nature that cannot
be explained on the level of physical
multiplicity, where things are either
discrete or continuous,
not the two together. However, according
to the single Menard model and the
complex-time geometry, that resulted from
the duality of time postulate,
discreteness and continuity are two
emergent properties of the same one
linear flow of time which is perpetually
recreating objects in the inner
continuous levels as waves, and
displaying them in the outer discrete
level, as particles. Originally, the real
flow of time is infinitesimally
continuous, because it is a result of the
continuous revolution of the Single
Monad, that is perpetually recreating
the cosmos at the speed of light, but as
this Single Monad "turns" from one
individual state to the other; each one
individual state will encounter a
discrete interval of time, which is
the second level that is encountered
outwardly, and that is why it appears
imaginary with relation to the previous
level. So on the primary level of
time, space is being continuously created (as waves),
and each instance of the whole space
will appear as one point in the
secondary level of time (as particles), that we normally
encounter. Any kind of measurement or
detection necessarily means that the
Single Monad, at this particular
instance of measurement, is manifesting
as the observer, that is now acting on
the system; and since there is only one
real state at the real flow of time, the
system must necessarily collapse at this
particular instance of the real time.
Ofcourse, this collapsing is not fatal,
otherwise particles and objects will
disappear forever, but (due to the laws of conservation)
they are recreated or excited again,
right after this instantaneous collapse,
at which time the observer now would
have moved back into an indeterminate
state, and become an object amongst other
objects.
In other words; in the inner levels of
time, things behave as waves, and in the
outer level, they become localized as
physical particles, but only for the
indivisible instants of time when they
are observed. If we suppose the particle
is composed of N individual points, or
Monads, each of which is an instance of
the Single Monad, that is the only
entity that exists in the real flow of
time, then the total velocity of the
particle is the time average of the
velocities of all individual points, each
of which is either at rest are moving at
the speed of light, at the particular
single instance of the time of measurement.
Therefore in an object or particle
of N individual points, because
only one point exists in the real flow
of time, on the inner level of Perpetual
creation, the position of one of these
points will be completely uncertain,
because its velocity is equal to c, while
the rest have been already defined,
because they are now in the past, and
their velocities have sequentially and
abruptly collapse from c to zero, after
they have made their specific
contribution to the total quantum state.
When the number N is very large, as it
is the case with large objects and heavy
particles, the uncertainty will be very
small, because only one point is
completely uncertain at the real
instance of time, but for small particles,
such as the electron, the uncertainty
could be considerably large.
This uncertainty will also increase with
momentum, because higher physical
velocity simply means that on average
more and more points are in real motion
rather than rest. This explains all the
puzzling features of quantum mechanics,
such as Uncertainty and the Measurement
Problem, or the effec of observers and
consciousness, as well as the reality of
wavefunction and its collapse; as it has
been demonstrated in more detail in
Chapter VI of the Duality of
Time Theory.
All these calculations are described in
detail in Chapter V of the Duality of
Time book.
[Music: Naqshbandi, Oh, My God, I am begging at Your Door!]
