![]() ![]() ![]() Point-like particles in particle physics are replaced by these one-dimensional elements and because this Planck length is in the order of magnitude of the oscillating strings in quantum physics we can reasonably assume that this one-dimensional element is equivalent to a string and can therefore be assigned the same qualities, … it are these one-dimensional objects that became the building blocks of the universe. more The most elementary one-dimensional element in nature is also the smallest, the size of a Planck length. The most elementary one-dimensional element in nature is also the smallest, the size of a Planck. As a starting point, this paper demonstrates a link between two of the forces… magnetism and gravitation via a dissection of Einstein’s Kappa constant in terms of known constants and without the need for tensor mathematics. But what precisely is space? What does it consist of? The author believes that space has a ‘substance' consisting of a ‘weave’ of magnetically susceptible filament fields… a fabric, so to speak, unlike any ‘substance’ within our everyday experience. Space exerts a pressure and resists pressure like a fluid. Space can carry waves of electromagnetic radiation. Space can conduct a magnetic field between two poles. Space can be polarized by an electric field. Space can be deformed by a gravitational field such that it slows the progress of time and shortens distances between object and bends the paths of light. more Gravity, electromagnetic energy, electric charge, magnetism have one commonality… they are conveyed by, or occur within, the same medium… space. Gravity, electromagnetic energy, electric charge, magnetism have one commonality… they are convey. The experiment only proved that if there is aether, it does not behave as one would expect of any physical substance of our everyday experiences.Īs a starting point towards understanding the nature of space, this paper demonstrates a link among three of the forces… magnetism, gravitation and the Strong Force via a dissection of Einstein’s Kappa constant in terms of known constants, physical relationships of length, mass and energy, combined with cosmological observations. The famous Michelson-Morley experiment did not disprove the existence of aether. In his later years, after his work on General Relativity, Einstein became convinced that there was indeed a substance to space, the substance once referred to as aether, which he had earlier rejected in his Special Relativity. Space can also behave like a perfect fluid or an ideal perfect gas. But what precisely is space? What does it consist of? The author hypothesizes that space has a ‘substance' consisting of a ‘matrix’ of magnetically susceptible filament fields… a ‘fabric’, so to speak, unlike any ‘substance’ within our everyday experience. ![]() Space can be deformed by a gravitational field such that it slows the progress of time, shortens distances between objects and bends the paths of light. ![]()
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