Sunday, May 28, 2017

The structure of the Cosmos


 


The above video introduces a new physical world view, which points a way toward the unification of quantum mechanics and general relativity. Dividing the universe by an information blocking horizon is congruent with the holographic principle, proposed by Leonard Susskind (1995). Rethinking the basic structure of space might solve not only above mentioned contradictions in physics, but it obeys Mach's principle, explains gravity, and turns quantum mechanics into comprehensible and intuitive science. It also exposes the vacuum energy problem, which is one of the greatest unsolved problems in quantum mechanics. The long list of unsolved problems in physics indicates that the Standard Model might need mending or outright replaced. The above video highlights two problems with Einstein's relativity: 1, space in vacuum is flat and 2, objects curve spacetime. 

Heisenberg uncertainty principle: 
As remembered from the video, the particle wave function and the spatial curvature changes in parallel. Increasing speed correspond to greater frequencies and positive field curvature (space contrasts). This way location is more certain, but the speed is uncertain. In contrast, lower frequencies correspond to smaller speed, but the negative curvature of space (which expands) leads to an uncertainty of location. This uncertainty reaches it climax in the poles.

Vacuum energy
Quantum mechanics tells us that vacuum if full of energy. In fact, vacuum energy is one of the great unsolved problems in physics. Watch the above video to learn why vacuum actually expands the universe by curving space into the fourth dimension.

General relativity  
Einstein's general relativity tells us that the fabric of spacetime is curved within and around large gravitational objects, but it is flat in vacuum (see image below). The Michelson–Morley experiment to find the presence and properties of ether in 1887 proved that there was no such substance, therefore no directional asymmetry in the universe. Because of this finding cosmos is considered isotropic. However, conventional Michelson–Morley type experiments could never detect dimensional anisotropy. Instead, dimensional anisotropy would form exponentially increasing energy need of acceleration and the gravitational differences depending on the curvature of space.
Thus, the universe is infinite (due to the dimension increase of white holes), but it has finite boundaries (due to the dimension decrease of black holes). Moving with constant speed corresponds to a movement along constant latitude, therefore it would bring one back to the starting point.


Massive object (such as a planet) curves spacetime according to general relativity 


Mach's principle:
Dark energy (the universe expansion) is explained by the zero point energy (the ground state energy of the quantum system). However, the expansion is far smaller than the calculations would suggest. However, four dimensional white holes would expand the universe at a rate dependent on the field strength of the black holes. Dimensional anisotropy also satisfies Mach's principle. Read the whole article or view it on Academia  The above proposed structure also leads to a cosmological evolution via interaction that engenders consciousness. So we are organic, inalienable part of the universe.

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