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associated with reducing particle spin the further away the effect is from the source. accelerated spin associated with magnetism. Hence, most of the change in spin velocity will occur at the surface. The influence of the adjacent slower-spinning atmospheric par- ticles slows down the spin velocity of the surface copper particles, resulting in oxidation. The acceleration of the air particles is neg- ligible. SUMMARY OF THE CROOKES TUBE EXPERIMENT * The PSV frequency at the right-hand side is greater than visi- ble light, reducing away from the charge point. PSV frequency at the left-hand side is in the violet spectrum, also reducing from the charge point. * The gas PSV reduces as the distance from the two sources of thrust increases. The violet striations result as the particles lose their spin in groups without thrust from the particles of the adja- cent striation. + Eventually the violet striations slow down to the blue frequen- cy in which a transparent spectrum exists. Localised accelerated spin velocity continues to occur at the charge points in the violet frequency. ¢ The spin velocity at the charge points remains constant due to conduction between the particles of the metal and the adjacent air particles. The drop of PSV in the tube continues down through blue, green, yellow to orange and red. ¢ The tube will now become transparent again as the PSV slows below the visible light frequency. The spin velocity at the charge points remains constant. However, the gas PSV in the tube has slowed to less than the green visible light frequency. RADIATION At faster spin such as AW87 (strontium), the effect on the strontium particles is still oxidation; however, the effect on the surrounding air particles is greater. The spin velocity of the air particles has now accelerated, resulting in radiation. Radiation is the acceleration by a body of the spin velocity of the surrounding particles. This may be seen as in figure 7, show- ing the radiation from a sample of AW226 (radium) that was observed on the surrounding air. It is important at this point to reiterate that when referring to these effects, it is the degree of particle spin acceleration which has more effect, rather than the final spin velocity. THE CROOKES TUBE EXPERIMENT The principles described so far may be very well illustrated by the Crookes tube experiment. Crookes introduced an electrical charge of 10,000 to 15,000 volts AC from an induction motor into a long glass tube, 4 cm in diameter and 150 cm long, which was filled with a gas. As he lowered the pressure in the tube, colours formed inside. These colours changed as the pressure was reduced. The electrical charge accelerated the particle spin. Normally this would appear as a spark as the acceleration is conducted through the gas particles. When the pressure inside the tube is reduced, however, the distance between the particles increases and this spin acceleration will not be so easily conducted. Hence we will not see a spark, but, instead, we will see the colours EXPANSION In a body in its natural state, all internal particles are spinning at a constant velocity (neglecting the very slow spin decay that all matter experiences). Their distance apart will therefore be constant. If the spin of these particles is suddenly accelerated, then the particles will be thrust further apart by the unstable forces around each particle. This will result in an increase in size of the body. For example, electrify the air between two sheets of metal and the air will expand, forcing the two sheets apart. Cut the current and the air PSV returns to normal, causing the sheets to fall back down (see figure 8). Similarly, raise a body's temperature and it will increase in size. Take the source of spin acceleration away, and spin velocity will return to normal, as will the size of the object. lle 1d: Figure 5. The slit experiment showed that energy travels in waves, not particles. This theory proposes that energy travels in waves of accelerated particle spin. Hence, the flow of energy may be more accurately simulated by waves through water than by the firing of a bullet. O0© GO Om OOOGBOO © O Block of OO Oo™ OO OO OO OO OOOO0O00D ***" Figure 6. Gravity occurs when a mass of spinning particles is attracted to those surrounding particles that spin fastest. These are the particles nearest the Earth. JUNE — JULY 1999 NEXUS - 41