At lower temperatures, the space between particles is called the intermolecular space. This space decreases as temperature lowers and particles move closer together due to decreased kinetic energy.
A solid has little free space between particles.
these particles are called quarks
Gas particles can be compressed into smaller spaces because they have a lot of empty space between them. When gas particles are compressed, their volume decreases due to the reduction in this empty space, resulting in an increase in pressure.
This behavior is characteristic of gases. Gases consist of particles that are far apart and move randomly, causing the gas to fill the container it is in. The lack of strong forces between gas particles allows them to spread out to fill the available space.
The space between molecules is called inter molecular space.
At lower temperatures, the space between particles is called the intermolecular space. This space decreases as temperature lowers and particles move closer together due to decreased kinetic energy.
When heat is applied to a substance, the particles gain energy and move more rapidly, causing the space between particles to increase. As the particles move faster, they spread out, creating more distance between them. This can lead to expansion or changes in the state of matter, such as melting or boiling.
Nothing but the space between particles is called vacuum.
A solid has little free space between particles.
When an object is heated, its particles gain energy and move faster, causing the object to expand. This increase in volume is a result of the increased average distance between the particles, leading to the object occupying more space.
Normally free floating particles and gases such as oxygen, nitrogen etc.
pore space
Very probable this space is empty, is vacuum.
As the space changes between the particles, so does the state of matter.
these particles are called quarks
Yes, particles in a gas can be compressed into a smaller volume by reducing the space between them. This will increase the pressure of the gas as the particles are forced closer together.