The matter exists in everywhere, include the vacuum.
No. Heat is a measure of molecular energy in matter, a true vacuum would not contain matter. However, since there is no such thing as a complete vacuum, then Yes.
A complete vacuum contains no matter.
There is no space where there is no matter. Even in a vacuum, matter, no matter how miniscule does exist.
A vacuum is not visible, as it is an absence of matter. Matter must exist to be seen, and so a vacuum cannot be seen.
nothing??? im guessing.. :P
No, a black hole contains a lot of matter and thus has a huge gravitational pull. Absolute vacuum doesn't exist anywhere we know of.
A vacuum consist of anti-matter; the opposite of matter...matter is something and anti-matter is nothing. When something is added to the vacuum the anti-matter is displaced and only matter will now remains. If you were made out of anti-matter then your observable results would be the opposite. Matter and anti-matter cannot exist in the same space; only one of the two can exist in any place at any one time. When you remove matter from a space the only thing that can exisist in that space is anti-matter!
A total vacuum is a space that is completely empty of matter. It is not practically possible to achieve a complete vacuum . An approximation to this is a space with pressure much less than atmospheric pressure.
No, the absence of matter would be a vacuum, which is quite different from a black hole. A regular black hole has a fairly large amount of mass (which is basically the same as matter) in a small space.
Theoretically, a vacuum is the absence of matter. The word "vacuum" comes from the Latin adjective "vaccus", which means "vacant". If a beam were to be pointed towards a vacuum, it would no longer exist due to the definition of what a vacuum is. Nothing exists once it enters the "vacuum".
By definition, matter is required for sound to exist. Sound waves are transferred by vibration of molecules, which is why sound does not exist within the vacuum of space. In space nobody really can hear you scream.
A complete vacuum is created in the absence of matter, especially in gaseous form. The phenomenon of suction generally associated with a vacuum results from a pressure gradient. Since P=nRT/V and there are more moles of gas outside of the vacuum there is also a greater pressure outside of the vacuum.