Interparticle space in matter can be justified by observing the behavior of substances under different conditions. For example, gases occupy a larger volume than liquids and solids, indicating that particles are far apart and have significant space between them. Additionally, the compressibility of gases compared to liquids and solids further demonstrates that interparticle space exists, as gas particles can be pushed closer together. Lastly, the diffusion of substances, such as the mixing of gases or liquids, illustrates that particles move through the spaces between them.
Matter does.
Matter occupies space and has mass. As such, the amount of matter present in a substance will determine its mass as well as its volume.
The conditions for 'something' to be called matter are :- 1. It should have mass and volume. 2.It should have intermolecular force of attraction 3.It should be made up of particles. If these conditions are present, then 'something' can called matter.
All forms of matter take up space. This is due to the arrangement of particles within the matter, which determine its volume and shape. From solids to liquids to gases, all matter has a physical presence that occupies space.
A vacuum does not contain anything; it is a space that is devoid of matter, including air. It is a low-pressure environment where there is very little or no molecules present.
Interparticle spaces in matter can be justified by the fact that on a microscopic level, particles such as atoms or molecules are not packed perfectly tightly together. There are gaps or spaces between these particles, which allows them to move around and interact with each other. This concept is supported by the observation of compressibility in matter, where substances can be compressed or expanded due to changes in the volume of these interparticle spaces.
In the space occupied by a perfect vacuum.
We can't say that liquids cannot be compressed we can compress them but very little . To know why we have to understand the concept of intermolecular attraction and interparticle space . ¤Intermolecular Attraction - It is attraction force between molecules of different elements that bound the molecules together . *Interparticle Space - It is the space between the atoms , molecules and particles of different elements . The lipuids cannot be compressed much because io liquid intermolecular attration is quite high due to which interparticle space is less due to which it can't be compressed much .
A vacuum is a space devoid of matter, where the pressure is lower than atmospheric pressure. It is commonly found in outer space, with very few particles present.
mass is the total amount of matter present in a substance while its volume is the space which the matter occupies.
If speaking in terms of matter present in the space, it would definitely be considered as a clear medium. Actually the space which seem to be empty is actually comprised of matter and anti-matter combining together and thus creating energy. The matter prevailing in this universe is negligible as compared to the free space.
A space entirely devoid of matter is called a vacuum. It is a region where there is no physical substance present, including gas, liquid, or solid particles.
Electromagnetic Energy does not require matter to be transferred...that is why it can travel through the vacuum of space.
A vacuum is a space that is entirely empty of matter or air. It has extremely low pressure, so there are no particles or atoms present. This is different from outer space, which still contains some particles, such as gas and dust.
A perfect vaccuum is pure space and has no particles in it
Matter does.
If all of the air is pumped out of a space, you would have a vacuum. This means there is no air or matter present in that space, creating a low pressure environment.