2. When an Artist paints an oil painting, it takes energy and takes
place over a period of time. The Artist is manipulating sub-atomic
particles. This illustrates the Quantum Atom Theory.The
mathematic formula for this is ∆E ∆t ≥ h/2π
3. The Artist is never sure how the painting will turn out and
∆ ラ∆ p ラ≥ h/4π is the mathematical formula of the position of lines and
curves on the π canvas. This could be a good illustration
of the Heisenberg Uncertainty Principle because the future is uncertain.
4. Every movement the Artist makes will start at the quantum level
and will have an uncertainty of momentum and position. The Artist
is exercising their free will. Each moment passing is a new moment
therefore, we are always living in the present tense. The old
moment is passing away into the past.
5. Heisenberg formulated the principle that says that it is impossible
to measure a sub-atomic particle without disturbing it. Any attempt
to measure a particle’s position must randomly change its speed.
Recently, this principle is being challenged by two grad students at
he University of Toronto. They have figured out a way.
6. Soon powerful quantum computers will overturn other principles
like Heisenberg’s Uncertainty Principles as far as measuring sub-
atomic particles and yes possibly read our minds.
7. Time is continuously formed by the emission and absorption of light
(EMR) from one atom to another forming the broken symmetry and
geometry of space time.
8. In this theory we have wave-particle duality because light is a wave
moving through space and a particle when it comes in contact with
an electron on the surface of an atom. It then forms a photon of
quantized energy representing a moment in time. This will form a
future wave function of probability as part of the continuum of time
forming the geometry or curvature of space-time.
9. There are two parts to quantum physics where time is relative to a
point and position in space. One part is the General Theory of
Relativity and the other part is what Einstein called “Spooky Actions
from a Distance” where weird things happen that baffles scientists.
10. Both theories approximate to Newtonian physics on an everyday
scale. Only a hidden variable could explain the probability of
quantum mechanics uniting physics. No one knows how these two
theories work together to form reality.
11. This hidden variable would have to affect all matter of the Universe
from the point of its creation to the present day. In the Quantum
Atom Theory that variable is Time itself.
12. Scientist know that time is a variable because we have time dilation
when an object accelerates towards the speed of light around
objects of great mass like the earth.
13. The earth spins at a high rate of speed and this forces light waves to
bend as the sun shines on the earth. In doing so it forms it’s own space
time geometry. This means that light is slowing down as it moves
around the earth. Space is being bent therefore, time is slowing down
because the greater the mass or energy of an object the slower time will
run for that object. The greater the energy, the shorter the time period.
So far this is all explained by General Relativity.
14. Spooky effects is caused by Quantum Entanglement when light has
spherical symmetry and the polarization of a photon remains the same
for the whole surface of the sphere. When the spherical waves come in
contact with electrons on the surface of an atom it will form photons.
Each photon will have a unique position in space and time that will be
part of the time continuum. This is the formula for quantum
entanglement.
15. Einstein didn’t like the spooky effects of quantum theory and thought it
was unstable. He discovered it first and called it the EPR Paradox. He
said that God didn’t roll dice when He created the Universe. Scientist
have been pouring over his notes for decades. Entanglement occurs
when two particles are so deeply linked that they share the same
existence. They are described by the same mathematical relation
known as a wave function. Einstein thought this would be too unstable.
16. This spooky effect that could in theory connect particles at the opposite
ends of the universe has been measured and found to exert its
unsettling influence more than 10,000 times faster than the speed of
light. Einstein said nothing can go past the speed of light but CERN has
clocked a neutrino going faster than the 186,282 miles per second.
17. Quantum entanglement is what will someday allow quantum
teleportation, a Star Trek like ability, and the next generation of
encryption methods and super fast quantum computers as well. One
computer could be at two different locations and yet be the very same
computer. What is put into one computer instantaneously show up in
the other in a different location.
18. Because of quantum entanglement, scientists reported that they are
now able to “teleport” information 9.9 miles. This is the longest reported
distance over which photonic teleportation has been achieved to date,
more than 20 times longer before.
19. Because of quantum entanglement, scientists reported that they are
now able to “teleport” information 9.9 miles. This is the longest reported
distance over which photonic teleportation has been achieved to date,
more than 20 times longer before.
20. Entangled particles can become widely separated in space. But even
so, the mathematics implies that a measurement on one immediately
influences the other, regardless of the distance between them.
21. Scientists theorize that entanglement can
make a “quantum phone-line” that could
“teleport” the details of one particle to
another over an arbitrary distance without
knowing its state. This opens up the
possibility that a transporter could transmit
atomic data - even people and would also
open up new opportunities for computing.
In the mean time, Einstein’s ban on faster
than light communication remains because
the photons compare notes
instantaneously, but the contents of those
notes are beyond our control, and so can’t
be used to transmit any useful messages
until more is discovered about the hidden
things.