Here, the force is not gravity - at least, not the force causing it to undergo the collapse - but the force applied by the piston. Now, for small amounts of mass like this, it will most likely evaporate very quickly via Hawking radiation, but a black hole will form nonetheless.Īny amount of mass can form a black hole if strong enough forces are acting on it. The Schwarzschild radius of an object of mass $M$ isĬompress any amount of mass into a sphere with a radius smaller than that and a black hole will form.
I'll convert my comment into an answer, because I think it answers the question:Ī black hole would form, because eventually you'd surpass the matter's Schwarzschild radius. Preon Degenerate matter which would sort of be like one big subatomic particle (though you might skip this one), and finally:.Keep adding pressure, and in theory you might form: Quark Degenerate matter where the quarks, or at least the standard up/down quarks, can no longer hold the pressure and perhaps combine/change form.Keep adding pressure, and you'll (in theory) form:
#Super stach squeed full
Neutron Degenerate matter where the electrons and protons join and cancel, leaving you with basically a huge neutral atom full of mostly neutrons, being held apart by the quarks.Proton Degenerate matter where only the repulsion of the protons is holding the nuclei apart.Electron Degenerate matter where no electron can orbit the nuclei, but now freely traverse the highly positively charged nuclei 'soup'.At some point you will surpass electron degeneracy pressure and form:
More electrons are too energetic to orbit the nuclei, resulting in higher positive charges (+7,+8 as allowable.
Gaseous substances will then easily compress, resulting in lots of heating as they do, until they heat up enough that the electrons freely float among the nuclei, and you have just made a Plasma.Since it doesn't break, and there's infinite force behind it, the substance gets compressed and heated anyway. With current realistic materials, the piston would break. Liquids will be compressed, resulting in lots of heat as this happens (with infinite pressure, and infinitely strong materials and force, the matter will give) into a gas, plasma, or Electron Degeneracy (depends on substance).Solids will be compressed, resulting in lots of heat as this happens (with infinite pressure, and infinitely strong materials and thus force, the matter will give), until they reach a liquid state, gaseous state, or start losing electrons and ionizing, or just stays solid all the way up to Electron Degeneracy - it depends greatly on the substance what happens here.I'm assuming infinite material strength here, as in the piston cannot be stopped (infinite force on an infinite strength material that can resist infinite temperature).
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