ZetaTalk: Science

the next Big Bang it finds itself entangled in.

Particles that are fluid, on the move, are by their nature loosely coupling with other particles. Humans are familiar with

the coupling that occurs in atoms, the nucleus surrounded by whirring electrons, for instance. Other particles couple in

predictable ways. What causes attraction and repulsion between particle types? We will use a common example to

explain, as the concepts can get complex. Magnetism happens due to the continuous flow of magnetic particles, a type

of the particle you call electrons, but this magnetic flow is not consistent everywhere. It is concentrated where a break in the pattern of electronic orbiting a nucleus allows a mass escape. What are they escaping from? An over-concentration of whatever it is they are made of! In the case of magnetism, magnetic particles are escaping from a

press of other magnetic particles, since they couple poorly and seldom, they are readily on the move.

All matter seeks a level of homogeneity, and can never achieve it as it is by its nature, coming out of the Big Bang,

non-homogeneous with the other particle types. Likewise, attraction is in essence an escape, misinterpreted by the

humans who have termed it otherwise. Gravity is nothing more than the effect of returning gravity particles drifting

back into a gravitational giant after having been ejected in what we would equate to a laser stream of particles, which

burst through rather than push at whatever is in their way to escape. Why do they drift back, and is this not an

attraction to return to the gravitational giant they just recently left? As odd as it may sound to those unused to these

concepts, these gravity particles are indeed running away from an environment they find clogged with matter

composed of element they themselves are heavy in - what humans commonly term the Dark Matter that fills to void of

space. They crowd back into what is for them a lesser field, the core of gravitational giants, where they are repeatedly

ejected due to this very crowding!

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ZetaTalk: Follows After

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ZetaTalk: Follows After

Note: written during the 2001 sci.astro debates.

Big Bangs affect vast areas, a fact which man is aware of as all he can see seems to have been affected by the same

event. But prior to clumping and becoming dense, matter is more homogeneous and fluid and thus each atom more

easily influenced. As in all events, something came first, and as in all events, something clumps or moves first, and this sets the stage for what follows. Explosions send things in all directions, so motion outward is rapid and has no brakes

other than the matter that lies behind it. Thus, matter on the periphery has push behind it, and matter closer to the

center of the Big Bang finds it has no push behind it, eventually. The center is a void, and thus nearby matter, from the inside out, starts returning to this void to escape the crowding it finds everywhere else.

As this matter returns, it interacts with other matter, attempting to equalize crowding. Even in homogeneous matter any

motion, even on the sub-atomic level with a single atom on the move, creates a zigzag due to the pressure created

when moving in any direction. Motion become circular, to develop a spin, when any inequality on either side of the zigzag occurs, such that the zig or zag is not simply back and forth, but takes a curve. During the time it takes for

galaxies to form from a Big Bang, matter is fluid for a long enough time for the motion in the center to affect and

establish the motion throughout. This takes the form of individual or local dramas, here and there, but the

synchronized spin of galaxies stands as a mute witness to the fluidity of the spurt coming out of a Big Bang, and to the

extent to which what is called Dark Matter, which we have termed tiny matter, exists as a glue binding the Universe

together in ways mankind little understands.

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ZetaTalk: Black Holes

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ZetaTalk: Black Holes

Note: written by Jul 15, 1995.

So dark that light can't escape, so dense that all matter going in gets compressed into imperceptibility. What is a black

hole, and does matter go in and never come out? All is relative, and the denseness of black holes only seems so to

humans because they have no basis of comparison. Also, as nothing seems to be coming out, humans assume this is a

bottomless pit of some sort, and frankly fear black holes. They serve a purpose, however, and are part of God's plan for

renewing the Universe. You know about the concept of the big bang, which we have explained as setting the clock

back on a part of the Universe, a type of refreshed state. The big bang requires something to bang from, and that state

is what the black holes are accumulating.

Do black holes consume all that they catch in their snare, and is there any escape? Black holes are voracious, but

proceed slowly. So slowly, in fact, that one can escape without even making haste. In addition, black holes do not

capture souls, as developed entities can float out of them, being of a lighter substance. However, black holes do

accumulate the substance of which souls are composed, when this has not formed into an entity, and remains loose and

undefined. This is packaged into the whole, and spread uniformly during the big bang, and thus the process of