Movement in the Physics.
==.
At absolute zero (0 degrees Kelvin, -273 degrees Celsius
or -460 degrees Fahrenheit), atoms lose all thermal energy
and have only their quantum motion.
Once the objects get cold enough, quantum effects such
as squeezed state generation, quantum information storage
and quantum entanglement between the light and the mirror
should be observable, Mavalvala said.
http://web.mit.edu/newsoffice/2007/super-cool.html
==..
The Newtonian physics says that at T=0K the motion of particles
is stoped. And this is correct. The Quantum physics says that
at T=0K there is some kind of particles motion . And this is correct too.
Is one part of physics contradicts with the other one? Is here a paradox?
No, here is not paradox. How then is it possible to understand situation?
My opinion.
Newtonian physics and Quantum physics are two different parts of
one whole Physics.
These two parts of Physics explain behavior of two different particles.
Newtonian physics says about particles which have mass and energy
and speed : c<1.
Quantum physics says about particles which have mass/energy
and speed : c=1 and c>1.
As a result of this situation QED tries clearly and logical to explain
the interaction between Newtonian and Quantum particles.
==.
socratus
Movement in the Physics.
Re: Movement in the Physics.
Quantum mechanics solves limit cases of the physics. Solves limits towards the border of the Universe, towards the point of the “now”. It deals thin sediment bordering with the future… We do not need any Higg’s bosons; we need to understand the movement of the stars in the galaxies (modify gravitational rules). We need to understand the phase border between the future and the history, we need to understand gravitational behavior of antimatter, we need to understand to analogy of the electromagnetic wave and the inertial motion…