Deriving Observational Proof that Quantum Phenomena is a Relativistic Effect

The notion that quantum mechanics is actually an effect of perspective is a theory that is supported by observable evidence. One can arrive at the proof through the following:

Let us imagine two observers, A and B. A and B are of equal size, and can observe each other by extending their arms out by 1 unit of distance. If they are closer than two units of distance, they can see each other. Any farther than two units, they cannot.

Now let us scale both observers — we double one in size, and we shrink one by half. How many times would we need to double one observer and shrink the other so that the small one reaches the observable threshhold of quantum effect, assuming the method of observation is visible light?

The smallest observable quantum effect is the Planck length, which is approximately 1.6 x 10^-35 meters.

To scale A and B so that the smallest one reaches the Planck length, we would need to double the size of A and shrink the size of B by a factor of 2.7 x 10³⁴.

If we now observe the process from the perspective of the shrinking object, what would be the length of one unit of the large object from the small one’s after the scale adjustment?

The length of one unit of the large object from the small one’s perspective after the scale adjustment would be 2.7 x 10³⁴ times the original unit length.

Now let us examime the distance to the edge of our observable horizon. The distance to the edge of our observable horizon is estimated to be about 46 billion light years.

Let us now take the 46 billion light year horizon, and divide it by the scale ratio at which A and B lost the ability to observe each other — 2.7 x 10³⁴

The length of 46 billion light years divided by 2.7 x 10³⁴ light years is approximately 1.7 x 10^-25 meters.

What objects are we aware of that are that size?

Objects that are approximately 1.7 x 10^-25 meters in size include quantum particles such as quarks and gluons. Objects larger than this scale tend to display classical effects.

Stated more formally: The scale adjustment of two observers, where one is doubled in size and the other is shrunk by a factor of 2.7 x 10³⁴ — which is equal to the ratio as the distance to the edge of our observable horizon — results in a length equivalent to the Planck length, which is the smallest observable quantum effect.

Because quantum effects can be modeled as artifacts of an observer’s perspective, and because actual observations of of our own observational horizons match the predictions of quantum mechanics exactly, it is reasonable to conclude that quantum effects are artifacts of an observer’s perspective.