Unifying Quantum Mechanics and General Relativity through the Principle of Quantinuity

The aim of this paper was to propose a fundamentally continuous spacetime as opposed to the commnon notion of quantised spacetime or quantum gravity to unify quantum mechanics with General Relativity.It highlights the incompleteness of the geometrical notion of the 'point' and the incompleteness it creates in both quantum field theory and General Relativity. The ‘point’ was defined by Euclid as: ‘that which has no part’. By this he meant it had no width, depth or height. Zero extension in any of the dimensional planes.This produces a contradiction because in order to have a singular indivisible location with a value of zero we must naturally invoke infinity. We must take 1 and divide by infinity to produce zero and in fact this is where the infinities come from in QED and GR. Thus by incorporating an incomplete notion from geometry into both large and small scale physics we have mathematical discrepancies as a result. This also applies to String Theory since it is a geometrical theory and requires calabi yau manifolds to be compactified at 'all points' in spacetime. The main errors stem from using the notion of points in our analysis, description and explanation of fields (which have a value at all points in spacetime) point-charge electrons (which results in an infinite self energy) and points in spacetime (describing the blackhole singularity).Through a new principle of Quantinuity (a syntheisis of discreteness and continuity) instead of viewing particles as excitations in 'fields' (which produces infinities and a vacuum energy prediction over 100 orders of magnitude over the observed value and also, when unified with GR, creates the blackhole information loss paradox) Fermions are instead considered fundamentally discrete objects traversing a fundamentally continuous spacetime. This naturally leads to the fundamental Uncertainty described by the Heisenberg relation and the wave nature of subatomic particles. It also explains non-locality and entanglement.This theory can, in principle, unify QM with GR, resolve the measurement problem by accounting for wavefunction collapse beyond mere decoherence (which does not tell us to update the probability to 100%). It removes the infinities from QM and the singularities from GR. It also resolves the catastrophic vacuum energy prediction made by QFT (dubbed the worst prediction in all of physics). It accomplishes this without any contradiction to the standard model.It can be summed up by paraphrasing John Wheeler:Spacetime tells matter how to behave continuously (wave-behaviour) and matter tells spacetime how to behave discrete (guage fields and gravity)