About Space In Quantum Mechanics

Adib

30th January 2008 - 04:55 AM

About space in quantum mechanics

We apply set theory with urelements ZFU to physical space, we consider
locations as urelements, elements of U (non sets).
Ui is a subset of U with number of elements n.
XiUi is the infinite cartesian product and a set of paths.
Let us consider the set of paths of all elementary particles-locations
which number is n.
If n is greater than m in CC(2through m), countable choice for k elements
sets k=2 through m, the set of paths will be the void set.
So, physical space would become void, the universe would collapse and a Big
Crunch would happen.
But the matter would have to go somewhere and indeed the Big Bang happened.
So, n is indeed greater than m.
The negation of the axiom of choice is really true because it can be
applied in physics.
Adib Ben Jebara.

PhysOrg scientific forums are totally dedicated to science, physics, and technology. Besides topical forums such as nanotechnology, quantum physics, silicon and III-V technology, applied physics, materials, space and others, you can also join our news and publications discussions. We also provide an off-topic forum category. If you need specific help on a scientific problem or have a question related to physics or technology, visit the PhysOrg Forums. Here you’ll find experts from various fields online every day.