Eengglish 16:04, 31 spalio 2025

2025-10-31T16:04:39Z

← Ankstesnė versija		19:04, 31 spalio 2025 versija
36 eilutė:		36 eilutė:
	<br> and thus their central quark-spheres are much more massiv.		<br> and thus their central quark-spheres are much more massiv.

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	[[Kategorija:Astronomy and astrophysics]]		[[Kategorija:Astronomy and astrophysics]]

Eengglish: Naujas puslapis: Quark-spheres are usually called by the misleading name "black holes".
Some people call them "quark stars", though they are not stars,
becuz they do not produce energy from nucleon-fusion. Quark-spheres are composed of what is called "quark-degenerate matter",
which means that the quarks are not arranged into separate nucleons,
as is the case with all other matter, but rather,
the quarks are too compacted-together to form nucleons.
...

2025-10-31T16:03:59Z

Naujas puslapis: Quark-spheres are usually called by the misleading name "black holes". Some people call them "quark stars", though they are not stars, becuz they do not produce energy from nucleon-fusion. Quark-spheres are composed of what is called "quark-degenerate matter", which means that the quarks are not arranged into separate nucleons, as is the case with all other matter, but rather, the quarks are too compacted-together to form nucleons. ...

Naujas puslapis

Quark-spheres are usually called by the misleading name "[[black holes]]".
 Some people call them "quark stars", though they are not stars,
 becuz they do not produce energy from nucleon-fusion.

Quark-spheres are composed of what is called "quark-degenerate matter",
 which means that the quarks are not arranged into separate nucleons,
 as is the case with all other matter, but rather,
 the quarks are too compacted-together to form nucleons.
 In the case of small quark-spheres, in which the surface-gravity is not as strong,
 there is an upper layer of neutron-degenerate matter
 (which is what neutron-spheres, aka neutron "stars", are composed of).

At the center of a quark-sphere, where the pressure is highest,
 the quarks are broken-down further, into gamma-ray photons.
 Those gamma-rays move through the quark-degenerate matter to the surface,
 and are emitted therefrom.

That movement through the quark-degenerate matter creates heat therein,
 and especially in the core, which causes expansion.
 That heat-induced expansion can halt the break-down of quarks into gamma-rays,
 untel the quark-sphere adequately cools again,
 which results in pulsatile emissions of gamma-rays.
 That on-off cycle of gamma-ray production is the norm for small quark-spheres,
 whereas larger quark-spheres have more internal equilibrium.

The more massiv the quark-sphere, the higher the energy, and thus frequency,
 of the gamma-rays that it produces.
 Larger quark-spheres produce gamma-rays of such high frequency that they
 immediately split-into proton-antiproton pairs.

There is a super-massiv quark-sphere at the center of every globular cluster,
 and at the center of every galaxy.
 The mass of the central quark-sphere is proportionate to the mass of its
 globular cluster or galaxy.
 Galaxies are much more massiv than globular clusters,
 and thus their central quark-spheres are much more massiv.

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[[Kategorija:Astronomy and astrophysics]]

Quark-spheres - Versijų istorija

Eengglish 16:04, 31 spalio 2025