ARGUMENT 0502-04

PRECEDENTS

0502-01: That every blackhole gravitonosphere consists of gravitonstreams in which the measure of dynamic mass varies from place to place.

0502-02: That many blackholes are within the gravitonospheric gravitonstreams of larger objects.

0502-03: That a centrifugal blackhole will attune itself to the dynamic mass of the gravitonstream within which it is moving.

PARAMETERS

Consider a centrifugal blackhole moving within a gravitonstream

Consider that the dynamic masses of the blackhole and the gravitonstream are not in equilibrium.

Consider that the dynamic mass of the gravitonstream overwhelms that of the blackhole.

REASONING

Because the gravitonstream is overwhelming the blackhole, large numbers of gravitons enter one hemisphere of the blackhole gravitonosphere from the gravitonstream.

Because large numbers of gravitons enter one hemisphere of the blackhole, the gravitonosphere realigns itself so that the (north) pole faces the incoming gravitons.

Because the incoming gravitons centre on the north pole, the northern hemisphere is engorged with energetic gravitons.

Because the northern hemisphere is engorged with energetic gravitons, the equatorial disc is pushed to the south pole.

Because the equatorial disc is pushed to the south pole, the gravitonosphere is now restructured:

gravitons move from the north pole to the south pole at high level.
gravitons fall at the south pole.
gravitons move from the south pole to the north pole at low level.
gravitons rise at the north pole.
excess gravitons are ejected at the south pole.

Thus the centrifugally structured blackhole becomes an axially structured blackhole.

CONCLUSION

That a sufficient dynamic mass imbalance between a blackhole and a gravitonstream results in a centrifugal blackhole becoming an axial blackhole.

This is an accurate description of the way an axial blackhole forms but it isn't the whole story. What is missing is the context. Gravitonstreams and centrifugal blackholes are to be found everywhere in the Universe and if a centrifugal blackhole is sorely out of equilibrium with the gravitonstream it is within, it can become axial. However, that axiality is likely to be brief because an axial blackhole is an understable blackhole. Understable blackholes become stable as soon as they can by converting spin to speed and by differentially ejecting mass and energy.

Notwithstanding the above, long-lasting axial blackholes are hugely common in the Universe. We just can't see them properly because they are so small. The exactly right conditions that allow axial blackholes to persist are found inside electrons and nucleons. The quarks found in electrons and nucleons are a mix of centrifugal blackholes and axial blackholes, held rigidly within gravitonstreams that have a dynamic mass sufficient to make the axial quarks permanently axial. In the event that an understable axial quark is released from its parent electron/nucleon, it rapidly decays into something else.

Quarks are described in detail in Chapter 7 (Electrons) and Chapter 8 (Nucleons).

Part 0502 - Axial Blackholes

ARGUMENT 0502-04