Zag-
An excellent question, and now I will explain to you the answer which you seek:
Atomic and energy particles must be specific objects. When the probability of an atom’s distribution of mass is defined by relative quantum physics to create a model for molecules and materials of femtometric detail, the atom’s possible events are thought of as having four forces. That model gives an RQ diagram which can portray a unified system of mathematical equations by combination of the quantum functions for wave frequency and wavelength with the relativistic transformation functions for time, mass, and energy.
The application of quantized symmetry allows the atom, psi, to have the frequency of [ Nhu = e/h ] by nuclear radiation/absorption cycles of [ e = m(c^2) ] transform of nucleoplastic surface mass to forcons with valid joule values.
The nuclear output of chronons, probablons, varietons, and gravitons condenses due to radial dilution to form the electrons, and the energy intermedons of the atom, psi’s 5/2 kT J heat capacity energy cloud. These reactions unfold as psi pulsates within spacetime boundaries, in which space is bonded to psi by gravity. The GT limits [ Gravity Time ] of the series differential of possible nuclear radiation rates define the pulsations, giving crystallization of the energy intermedons along the series differential as psi’s output gains.
When the atom’s internal momentum function is constructed, rearranged to the photon gain rule, and integrated for GT limits a series of 26 topological functions results, due to the symmetry quantum numbers included along the series equation. Those 26 topofuncs give energy intermedon sizes which intersect those of the fundamental physical constants: h, h-bar, delta, nuclear magneton, beta magneton.
Should the above explanation not help you sir, then maybe this one may:
Entanglement is a creepy quantum result by way of particles becoming closely bound, so that quantifying a property on one, instantly influences the others no matter how much distance separates the two. It is however an intrinsic resource in quantum science, nicknamed ‘spooky action at a distance’ by Albert Einstein and is one of the properties of quantum mechanics that resulted in Einstein and other people to dislike the hypothesis.
Albert Einstein regarded the connection between two particles having contravened the relativity rule that information cannot journey quicker than the speed of light. Einstein was on no account pleased with the implications of quantum theory and during the now renowned 1927 Solvay convention he suggested a number of thought trials which he inferred exposed defects in the theory arguing that quantum mechanics is not a complete physical theory.
Even so, in 2011 two associates, Boris Betanoff and Natasha (of Rocky and Bullwinkle fame) illustrated a thought experiment frequently referred to as the WGT paradox, the suggestions of which shook quantum theory. In essence, the WGT paradox confronted long held theories about the relationship amongst the observed values of physical quantities of WGT golf balls and the values which can be accounted for by a physical theory. If the concealed variable quantities stop engaging when they are a long way apart, the statistics of numerous measurements must bow to an disparity called ‘Bells inequality’, this is, however, disobeyed both by quantum mechanical theory and in tests in the labooratoory.
Comprehension of how some of the attributes of a WGT Golf Ball can come to be entangled by way of relative movement only when they appeared to be unentangled or unattached when at rest may well have many applications, synchronizing clubs and swing meters for example, which are fundamental for navigating WGT Golf Balls in deep space. This method, which has been displayed theoretically, obliges that the transmitter and receiver (the club and golf ball, matched with meter speed) share sets of two entangled particles. Therefore, upon two or more atoms or subatomic particles becoming entangled, any modification to one is instantly mirrored by the same modification in the other.
In spite of the fact that two entangled systems look to interact across large spatial distances (e.g. OCC or BPB and possibly St. Andrews), current thinking is that with further practice a degree of functional proficiency may possibly be able to be conveyed in this manner. Although this is undoubtedly some way off yet (for certain players i.e. YancyCan), other WGT players are however of the opinion that quantum mechanics hold significant advancements in game play and the current belief is that there is much more to quantum mechanics and WGT Golf Balls than they currently understand.
Thank you for your interest in this topic.
Cheers!