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To a certain extent, the more material you have (the greater the mass) the larger the volume will be.But there is no absolute relationship as some low density materials will have a great volume but very little mass while some high density things can have very great mass with very little volume.
This possible at very high temperature or for a small volume of water.
It means it's mass is very high and its volume is very low. A standard neutron star has a mass thousands of times greater than the sun, but a volume of a small city. This ridiculously high density and pressure also account for the high temperatures of neutron stars. PS. Quark stars are denser than neutron.
You can't, because the gram isn't a volume. The volume of a gram depends on what substance you have a gram of. A gram of air has more volume than a gram of water, and a gram of stone, lead, or gold has a very, very tiny volume.
The meaning of indefinite volume is that the sample would expand to fill the entire container. Gases are the only thing to do this.
Some videos and music just play at a low volume. I have several pairs of headphones that are capable of very high volumes, but are limited to the volume of the video/music I am watching/listening to.
Yes it can very high
it depends on if the volume is already on high or not
he shouldnt...and if he does then hes not a very good boyfriend.
due to high velocity it occupies a very lage volume arround a nuclius..
We shouldnt! To do so would be very ignorant.
To a certain extent, the more material you have (the greater the mass) the larger the volume will be.But there is no absolute relationship as some low density materials will have a great volume but very little mass while some high density things can have very great mass with very little volume.
This possible at very high temperature or for a small volume of water.
that would be high pitch
It shouldnt. You will starve very quickly if it is.
It means it's mass is very high and its volume is very low. A standard neutron star has a mass thousands of times greater than the sun, but a volume of a small city. This ridiculously high density and pressure also account for the high temperatures of neutron stars. PS. Quark stars are denser than neutron.
Their nutritinal diversity,diversity of respiration,high surface-volume ratio,High metabolic rate,being very small,high reproducing rate