Equivalence of space and time
Albert Einstein revealed the equivalence of energy and mass.He put that into his famous equation E = m * c², that means that energy and mass are increasing and decreasing in the same proportion. So we have an energy of 3. That means we have a mass of 3. The units of measurement are left away. The speed of light c equals 1. c² equals 1, too. That comes from the division of Planck time and Planck space, that both equal 1, too.
Space and time are equivalent measures. They are both quantized. That means that they come in impacts as a multiple of a basic unit. Mahtematically spoken:
space = Planck length * natural number
time = Planck time * natural number
So how can we conclude the equivalence. You see both are proportional to a natural number. Critically seen, youcan say that you have to differ between natural number m and natural number n.
So we assume two different numbers m and n. And make a complete induction.
We put the both upper equations together: v = (m/n) * c.
So let's look at the case n = 1:
Time is now exactly a Plack time. So let's go through the possibilities.
m = 0. That means that space is 0 and time is 1. So speed v would be 0 / 1 = 0. Einstein said that nothing stands still, so speed cannot be zero. So m = 0 is false. m = 1. Therefore the speed would be 1 or physically c, the speed of light. m > 1. So if m would be greater 1, the speed would be higher than c, which was excluded by Albert Einstein, too. So it is proven that for n = 1, it is true that v equals the speed of light.
Let's conclude from n to n + 1 n -> n +1:
That's simple. So we have n = m, and add on both sides a one. so we have n + 1 = m + 1, which is also true, as we assumed n = m. If n equals m, so n + 1 equals m + 1. So v = c is true in every cases following complete induction.
So we have
v = c,
that means that speed is always the speed of light. Because of speed being the division between space and time, we have also the equation s = t * c, or s = t, if we assume c being 1. Space and time are developing the same way. They are equivalent measures. But there is also the superluminal speed of forward.
How about v=c. That’s the main equation of my absolute theory and there are two proofs because i didn’t wanna believe the first one. So the first one is mv^2 = W = delta E = E = mc^2. So you have mv^2 = mc^2 which leads to v = c or s = t * c which is equivalence of space and time That was known before but no one knew how to handle. So i say there is a black hole in the center of the infinite universe which gives an absolute frame of reference. And in this absolute frame of reference we are moving with c. So that was my vision and this is the main idea of my theory Second proof for this arouses from quantum theory. s = Planck length * n according to Max Planck and t = Planck time * n. So this put together leads to s = t * Planck length / Planck time which is s = t * c. And if you say hum you got to differentiate between both natural numbers m and n, you take natural induction. Step one is s = t * c which is true. Second step is s = t * c * m / n. So Einstein assumed nothing to stand still and nothing to move faster than c. So you got v = c * m / n. If we induct to m, we see case 0, that v becomes zero which is not possible according to Einstein. Case 1 stays v = c which is true. And case two or higher leads to v = 2c or nc with n >= 2 which is not possible according to Einstein. So we can state s = t * c to be true. I needed these three proofs because it is the basic of my theory and i wanted to be sure.