Lego Universe - QUNM

Uncertainty in Postion

Uncertainty in Position

With the dilation of the nothingth dimension through the Hubble frequency and through gravitational dilation, instantaneous placement of an object is ever changing. The use of small charge field strings and their corresponding magnetic field lines are of the smallest of objects with a single wave function; while, items like galaxies with their shared velocity make up some of the largest objects to share a wave function. So all this must be placed instantaneously within the nothingth dimension as change in time approaches zero (or is practically zero?! – as it is a continuous universe). The instantaneous placement of the object within this expanding and collapsing nothingth dimension is at the 'center of its wave function' – which, unfortunately, is as far as I can elaborate on the definition of this term. Gravity has no wave function while it is travelling at the speed of light (ie. not interacting with other gravity) and is possibly not affected by uncertainty; except, gravity that is intermingling with matter physically should share the uncertainty of the matter with which it mingles. This would result in the dilation of gravity, in close proximity to mass, having an uncertainty to it.

It must also be noted that a particle such as aproton, electron, neutron, quark, and etc. does not have to keep a definedcenter. The particles may actually keep themselves in a density rather than adefined particle until they are collapsed by a perturbation which measures itsposition.