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PART 1 – MOMENT ZERO MECHANICS

CONCLUSION 0401 - At Moment Zero, the vergence velocity of every teelpair in the Universe exceeds its escape velocity. Thus every teelpair is understable and the Universe a gasbonded teelosphere.
CONCLUSION 0402 - At Moment Zero the strength and principal direction of the gravitypull acting on each teel varies according to its location within the Universe.
CONCLUSION 0403 - At Moment Zero, the totalspeed measure of teels increases with their distance from the Ucentre due to an increasing measure of potentialspeed.
CONCLUSION 0404 - After Moment Zero, all teels move away from the Ucentre faster than lightspeed, transmuting realspeed to potentialspeed as they do so due to a greater gravitypull behind than ahead.
CONCLUSION 0405 - After Moment Zero, the farther a teel is from the Ucentre, the more quickly it transmutes its realspeed to potentialspeed and the more quickly it decelerates.

COMMENTARY – After Moment Zero, the Universe behaves exactly as does an exploding object on the surface of the Earth. All of its matter moves outward from the centre, immediately beginning to slow down – but unequally so for the nearer the matter is to the surface of the Universe, the more quickly it slows down.

PART 2 – POST MOMENT ZERO STRATIFICATION

CONCLUSION 0406 - After Moment Zero, the order in the Universe becomes disorder as teels collide, exchange spinspeed, and alter direction.
CONCLUSION 0407 - After Moment Zero, the expansion rate of the Universe slows as kineticenergy progressively transmutes to potentialenergy and latentenergy.
CONCLUSION 0408 - After Moment Zero, the kineticenergy of the Universe progressively moves outward from the Ucentre toward the Usurface.
CONCLUSION 0409 - After Moment Zero, as realspeed moves outward from the Ucentre, teelpairs at the centre become momentarily stable or overstable.
CONCLUSION 0410 - After Moment Zero, the ratio of overstable/stable teelpairs over understable teelpairs progressively increases and the centre of the Universe becomes a growing liquidbonded teelocean within an expanding gasbonded teelosphere.

COMMENTARY – The rate at which the Universe is expanding is slowing because the speed of its teels is slowing. However, the slowing is not at an even rate. It is slowing more quickly at the centre than at the surface. This results in the forming of a liquidbonded core at the centre, small at first but growing. Thus the Universe stratifies into a liquidbonded teelocean surrounded by a gasbonded teelosphere.

PART 3 – POST MOMENT ZERO ACCRETION

CONCLUSION 0411 - As the Universe expands, the density of the teelocean progressively decreases and the number and average lifetime of its stable/overstable teelpairs progressively increases.
CONCLUSION 0412 - As the Universe expands, the teelocean becomes a turbulent mix of shortlived blackholes within a 'soup' of stable, overstable, and understable teelpairs.
CONCLUSION 0413 - As the Universe expands, blackholes in the teelocean form more easily, endure for longer, and are more easily able to increase their mass.
CONCLUSION 0414 - As the Universe expands, understable blackholes in the teelocean serve as energy filters, retaining teels with a lower totalspeed and ejecting those with the most.
CONCLUSION 0415 - As the Universe expands, the growing blackholes within its teelocean form teeloceans and teelospheres of their own to create a core of blackholes within the Universe's teelocean.
CONCLUSION 0416 - As the Universe expands, it evolves an expanding core of growing blackholes that is ejecting its excess energy outward into the surrounding teelocean/teelosphere.

COMMENTARY – The Universe is coming to resemble the Universe of today in that it is now a gasbonded teelosphere surrounding a core composed of objects, each of which has a teelcore, teelocean, and teelosphere. The principal difference lies in the size of the objects making up the teelcore. While there are considerable variations in their sizes, these blackholes are still tiny. The central core of the Universe is a huge ball of violently energetic specks of dust.

PART 4 – INVERSION

CONCLUSION 0417 - As the Universe expands, the gravitypull of its blackhole core decelerates the expansion rate of both the core and the surrounding teelocean/teelosphere.
CONCLUSION 0418 - As the Universe expands, the blackhole core progressively ejects mass, decreasing its own gravitypull and increasing the gravitypull of the surrounding teelocean/teelosphere.
CONCLUSION 0419 - For the first eight billion years after Moment Zero the gravitypull of the Universe's blackhole core dominates that of the surrounding teelocean/teelosphere so the expansion of the blackhole core decelerates.
CONCLUSION 0420 - Eight billion years after Moment Zero the gravitypull of the Universe's teelocean/teelosphere comes to dominate that of its blackhole core, the expansion of which thereafter accelerates.

COMMENTARY – Planet Earth sits inside the blackhole core of the Universe. This blackhole core remains as it was after it first formed: an accretion of solidbonded teelcores, each surrounded by a teelocean/teelosphere which often abuts the teelocean/teelosphere of any adjacent teelcores. The blackhole core has evolved over the past 13 billion years and now contains many blackhole accretions of considerable sophistication.

With our present observing equipment we are only able to “see” relatively large blackhole accretions. We are also unable to see beyond the blackhole core into the Universe's teelocean/teelosphere. Indeed, we have not yet identified that there is one and in the Current Cosmology Model, the blackhole core is all there is.

We have determined that the expansion of the Universe (actually the blackhole core) is currently accelerating and this is counterintuitive given that, in the Current Cosmology Model, the blackhole core is believed to be all there is. None of the reasons advanced for this counterintuitive acceleration has yet been positively identified, with the unknown cause(s) being given the blanket term “dark energy”.

In the dark energy concept, there is an unidentified force that is powering the expansion of the Universe from within. With the Malta Cosmology Template, the force is the gravitypull of the increasingly massive teelocean/teelosphere that surrounds the Universe's blackhole core. This is the same mechanism that, on a smaller scale, powers the darkmatter that is slowing the collapse of galaxies.

Darkmatter is dealt with in detail in the next chapter. However, it is worth noting here that in the early Universe darkmatter was also a factor in the expansion of the blackhole core – another example of a multiprocess at work.

PART 5 – SELFPROOF

SELFPROOF 0401 - DARKENERGY
SELFPROOF 0402 - THE COSMOLOGICAL CONSTANT
SELFPROOF 0403 - QUINTESSENCE
SELFPROOF 0404 - EXPANSION ACCELERATION AND DECELERATION

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Chapter 1 - Fundamentals | Chapter 2 - Moment Zero
Chapter 3 - Blackholes | Chapter 4 - Darkenergy
Chapter 5 - Darkmatter | Chapter 6 - Photons
Chapter 7 - Electrons | Chapter 8 - Nucleons
Chapter 9 - Atoms | Chapter 10 - Atom Mechanics
Chapter 11 - Stars | Chapter 12 - Star Mechanics
Chapter 13 - Galaxies | Chapter 14 - Galaxy Mechanics
Chapter 15 - Galactic Clusters
Chapter 16 - Galactic Cluster Mechanics