Jump to content

About space in quantum mechanics

Adib
in Speculations

Featured Replies

About space in quantum mechanics

 

We apply set theory with urelements ZFU to physical space, we consider

locations as urelements, elements of U.

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.

 

http://jebara.topcities.com

Archived

This topic is now archived and is closed to further replies.

Go to topic listing

Important Information

We have placed cookies on your device to help make this website better. You can adjust your cookie settings, otherwise we'll assume you're okay to continue.

Configure browser push notifications
Chrome (Android)
  1. Tap the lock icon next to the address bar.
  2. Tap Permissions → Notifications.
  3. Adjust your preference.
Chrome (Desktop)
  1. Click the padlock icon in the address bar.
  2. Select Site settings.
  3. Find Notifications and adjust your preference.