Initial singularity

In the beginning an event occurred. The first event. A single solitary self-replicating event that was the totality of our universe.

This event caused other events to happen which in turn caused still more events to happen. Eventually there was a vast sea of events causing and being caused and interacting with one another. To interact with another event an event must "see" the other event (the act of seeing is itself an event)

Our universe has just the right balance of chaos and order to make life possible. Too much order and the universe would be frozen and unchanging. Too much chaos and life would be burned up.

It is entirely conceivable that the first singularity of our universe was in reality just a single event in an earlier universe of total Chaos. A Chaos so total that life was not possible. It is possible that this earlier Universe separated into regions that were dark and frozen and regions there were light and chaotic and that our universe formed at, what was at that time, the boundary between these two regions.

Volume of the universe
Assuming that the universe is 1 trillion light years in radius and 100 angstroms in thickness then the volume of the universe is the same as a four dimensional sphere 1,434 light years in radius.

Atoms have volumes of 10-100 Å3 (radius = 1.33-2.88 Å). Water has a density of 1 gram/cm3 which is 560,000,000 eV/Å3. A three dimensional sphere with a density of and a radius of 1,434 light years would have a surface gravity of 3.87 g's.

A four dimensional atom (or neutrino) with radius 2.88 Å has a volume of 340 Å4. A four dimensional sphere with a density of 0.56 eV/340 Å4 and a radius of 1,434 light years would probably have a surface gravity of approximately 3.87 g's or a little bit more.

An object falling from infinity to the surface (or from the surface to the center) would accelerate to 75c


 * 75c * 13.8 billion years = 1 trillion light years

The pressure at the center would be approximately 25.75 million bars which is 7 times the pressure at the center of the Earth.

It is probable that when an object reaches that size its core begins collapsing and emitting energy and that this normally prevents the object from growing further.

We can see to the CMB which is 46 billion light years away. Thats 2.6356° of the way around the entire universe. Cos(2.6356°) = 0.999

1 trillion light years = 2208 Planck lengths.

The observable universe is 1/48,414 of the volume of the entire universe.

The mass of the observable universe is estimated to be 1053 Kg. The mass of the entire universe would be 5*1057 Kg.

5*1057 Kg spread evenly over a four dimensional sphere 1,434 light years in radius is 0.1 kg/m3

1 liter of water atoms would fit into a four dimensional cube 0.75 mm across.