G is the resistance experienced by C^2 .

Where C^2 exists , there is a resistance G . ( If C^2 does not exist then there is no resistance G ) .

Because of this C^2 can never reach the ultimate , where there is no space , where time stands completely still .

Because of the existence of C^2 there is space , distance , time , the universe .

If C^2 does not exist , then there is also no space , no time , then there is the timeless .

Because of this it is that C^2 is trapped in its own creation .

C^2 cannot step outside space , cannot step outside the universe .

Where C^2 exists , there is space , and time , etc .

C^2 is not a law but the effect of all laws .

And these are immutable and without beginning or end ,

so that the effect ( C^2 ) will also remain eternal .

But C^2 is also present everywhere in space , because where C^2 is not , there is no space.

The measure of space ( DIM ) is there by the ratio DIM = C^2 / G .

From the above table we can see that space is larger when C^2 decreases .

That is , if C^2 is minute ( small ) , then the space is very large .

If C^2 is infinitely small , then space is infinitely large .

Not to forget that C^2 is everywhere .

In the universe that has a physical existence , larger C^2 concentrations may occur

causing space to be contracted and where time is slower ( in this place ) .

Hence the dimensions DIMs ,

Operation of E µ G and matter

When in a given dimension there is a quantity of E ,

then there is formation of matter .

Where E is present in the universe there is the matter.

In a certain dimension DIM in which there is a certain C^2 the matter = E / C^2

In the formula it is very clear to see , that only the energy E , is responsible for matter.

Because of the existence of matter there is gravitation µ ( between matter ) , this gravitation does not exist if there is

no matter .

The gravitation µ and the energy E are always present in the same proportion as the C^2 and the G .

In a given DIM in which there is a given G , the µ = m matter * G

it is perfectly possible to calculate the matter with the gravitational µ m matter = µ / G

But it is the energy E that is responsible for the existence of matter.

µ the gravitation , is a reaction to the energy E and so is not directly responsible for matter.

Thus we then have two ways of calculating matter m = E / C^2 m = µ / G

From this it follows E / C^2 = µ / G or E / µ = C^2 / G matter can only exist

in a dimension ( space ) that has corresponding properties.

A DIM where C^2 / G = E / µ .

If there are small differences vb a small excess of E

then that difference will manifest itself in motion , velocity .

And then if there is another matter present in that space , then the matter in question may

cannot escape from this dimension because of the gravitation they exert on each other and the motion will continue.

Or a collision happens.

The bigger the matter the bigger is the µ µ = m matter * G

gravitation C^2 and G form the space

E and µ form the matter.

If C^2 does not exist then G is also non-existent , if E does not exist then µ is also non-existent.

Then there is no matter either.

E µ C^2 G are not laws , but are the effects of the laws ( timeless ).

These will also exist eternally since the laws themselves , have no beginning or end , in the timeless , and are immutable .

exercise , from this I can conclude that the universe is eternal.

C^2 and G determine the passage of time , if C^2 could reach the ultimate then time would stand still ,

but that is not possible since there is always the opposition G.

It is the ratios C^2 / G that determine the passage of time, so each DIM has its own time sequence.

This is also the reason why different light speeds are measured in each DIM.