ZetaTalk: Science

seem from end to end, and

rising for miles up into the sky. Consider that within this charged field, there are not simply electrons and the

particle that creates the phenomenon of magnetism, but all the other 387 particles that operate in a similar

manner, each with its own desire to equalize its distribution in the vicinity. Ball formation occurs when the

particles that would disperse are forced to remain in the vicinity by a greater pressure from other particles

surrounding them.

Light Suppression

Light bends, as anyone looking at their feet while standing in water is acutely aware. Light particles are quick,

and are used by Nature as the basis of sight because most of them escape and go in a straight line, but they are

not so quick as to escape influence. In Black Holes, so few escape that the hole is identified by their absence.

Gravity is assumed to be the shackle holding them, but in fact there is a phenomena of light that a mass of these

particles in and of itself is the draw that pulls nearby light particles into itself. Then why does light seem to

move in a straight line, from heat and light and electricity generating situations? They bolt, do they not? From

stars and explosions and fire, they are on the run, or so it would seem. Light particles as many other particles

types form waves because of a constant attraction/repulsion dance they assume with each other. They run from

and yet run toward each other, always wanting homogeneity of their quality but never able to achieve this. The

dance that particles form in this effort is the wave identified as a light wave. So why does light move long

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ZetaTalk: Ball Lightning

distances, then, during this dance? Momentum from an explosion of other particles has put them on the move.

But in ball lightning, where an immense area is affecting particle equalization, these other particles cannot

disperse, or explode, as they might otherwise. It is a delayed explosion, so the light being generated within the

ball can do what it normally does - clump!

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ZetaTalk: Ice Formation

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ZetaTalk: Ice Formation

Note: written on Feb 15, 1997.

Humans are aware that during molecular changes, rapid expansion can and does occur. Explosions are such a situation.

Subatomic particles bound closely to the nucleus of atoms go on the move, and bump each other during this activity,

so the exploding mass as a whole requires more space. There is pressure outward. But explosions seem to be

accompanied by heat, where the formation of ice crystals seems to be due to the lack of heat. So why would ice

crystals expand, requiring greater space than the liquid state just before? Gaze at a drop of water and the same water

molecules represented as fluffy snow. Snow, as the weary crews that plow roads in winter are painfully aware, takes up

so very much more space. Several feet of snow, when melting in the winter, end up representing only a few inches of

rainwater.

Heat is composed of several subatomic particles that act as a lubricant for molecular motion, where atoms change their

position with respect to one another. Thus, as is well known by humans, hot metal or rock can become liquid. The lack

of heat particles creates a situation at a certain point where atoms are pressed against each other, and a different drama

ensues. Just as within explosions, where subatomic particles on the move require more space than in the prior, pre-

explosive state, just so the near proximity of other atoms can create this need for more space. The loss of heat does not

necessarily accompany this expansion, as the processes are separate though often occur simultaneously. In the case of

ice formation, there is a steady lose of heat during the freezing process, however, so to some degree one might call the

formation of ice a controlled explosion.

What occurs at the point that freezing water turns to ice is that subatomic particles trapped within each water particle

are encouraged to move into areas formerly occupied by heat. Like children under a teacher's thumb while at their

desks, when the teachers are elsewhere, they scamper out into the halls to play. They no longer bump into heat

particles flowing between atoms when the normal course of their movement within the water atoms brings them to the

periphery. Just as in an explosion, where the rearrangement of particles at the atomic level requires more space, just so

the quiet explosion that freezing water represents requires more space. The water atoms are now increasingly sharing

subatomic particles, which move to the periphery of an atom and loop through and around other atoms before

returning. Thus the atoms become bound to each other by the wash of this motion, and become static ice!

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