Basic Quantum Magnetic Interaction Data

Paper involved 3 experiments. All experiments involved similar magnets of dimensions 4.7cm X 2.1cm X 1cm. There are three experiments in total. Each experiment involved measuring the same lines with different interactions. 12 lines in total measured away from the base magnet. Each line is 8 cm long 0.5mm apart. This means 8 measurements are directly in front of the magnet, 2, half with magnet half out, on purpose. And 2, 0.5mm out. All three experiment thus involved 960 seperate measurements, a most detail understanding of the magnet.All Equations that are derived from the experiments are within the data spreadsheet.Experiment 1 was a base experiment. North face of base magnet was measured. Though not seeking confirmation, in this experiment just as in the paper "Magnetism: Insights from the Thomas Young Experiment", magnetism organizes itself into a wave. Near the face strongest at poles, 8 cm away, strongest in the middle. Experiment 2 involved placing the second magnet which is of similar dimensions and type with the south face facing the base magnet at 90 - degrees and for practical reasons 1.5cm away from base magnet. Thus one was measuring a south north interaction. One clearly see's the line of annihilation as the two opposing poles of the khumalon meet. Understanding their particles one sees the matter antimatter collision, which is the matter, which is the anti matter? The equation for this interaction needs two concepts added. The determinant of interaction that includes angle of interaction, in this case 90 - degrees. This determinant of interaction lies between 0 and 1. As well as a concept known as a zerowa is introduced.Experiment 3 involved turning the second magnet such that the north face faces the base magnet. One is measuring a north north interaction. One can see there is more of the khumalons after 8 cm in this experiment than the other 2 experiments. This means the khumalons are not annihilating each other but bumping each other. The determinant of interaction in this case is greater than 1. Understanding that the khumalons organize themselves into a magnetic wave, and that they decrease in number rapidly, not all means that they decay fast, in jiffies of a second as in particle colliders, but, all the potential energy is the same, one can not argue the other way. Potential energy is what they are made of and gives them that classification as magnetic particles. If the kinetic energy is different and all are going at the speed of light, that means the frequency of khumalons not only varies greatly, but there is an acceleration principle that can be explained by Newton, if and only if language is translated into quantum understanding. One can be fancy and be new, but its already done, similarities are just too great as is explained in paper.