Can Matter With no space be compressed?
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Can Matter With no space be compressed?
Yes it is possible to compress matter to a point where what remains in the atoms are only neutrons and no empty space.
Is it possible to compress matter?
Gases are unlike other states of matter in that a gas expands to fill the shape and volume of its container. For this reason, gases can also be compressed so that a relatively large amount of gas can be forced into a small container. If we put pressure on a solid or a liquid, there is essentially no change in volume.
Can matter be empty space?
Atoms are not mostly empty space because there is no such thing as purely empty space. Rather, space is filled with a wide variety of particles and fields. It’s true that a large percentage of the atom’s mass is concentrated in its tiny nucleus, but that does not imply that the rest of the atom is empty.
Is it possible to compress space?
The warp effect uses gravitational effects to compress the spacetime in front of a spacecraft, then expand the spacetime behind it. Whereas many of the theoretical studies consider a warp bubble moving at ten times the speed of light, there is no known limit to the potential speed.
Can you compress an electron?
No, because under enough compression atoms stop being atoms. *The electron-neutrinos can fly straight through most matter, so they just escape into space.
The short answer is that this cannot be done. The electromagnetic repulsion would be stronger than anything that could be used to try and compress them. An example of atoms [matter] being extremely compressed can be seen in neutron stars.
What is an example of an atom being extremely compressed?
An example of atoms [matter] being extremely compressed can be seen in neutron stars. Neutron stars are EXTREMELY dense (only a small step away from a black hole), so dense that the matter has been compressed into neutrons. My understanding is that when you compress the atom so much, the electrons and protons combine to form a neutron…
What is an example of matter being extremely compressed?
An example of atoms [matter] being extremely compressed can be seen in neutron stars. Neutron stars are EXTREMELY dense (only a small step away from a black hole), so dense that the matter has been compressed into neutrons.
What is the easiest way to compress matter to a certain density?
However, by far the easiest (and perhaps the only feasible) way to compress matter to such densities is by gravity itself. This is why black holes are expected to form mainly by massive stars running out of fuel.