Yes they do have spaces between them, But it is very very very very very very very very very very very very very very very very little...
empty space
Porosity refers to the amount of empty space that is between particles of material. When something has a low porosity, it does not have much of this space between its particles.
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.
THEORETICALLY: An absolute vacuum has no mass contained. In empty space there is no mass, so an absolute vacuum is empty space and empty space is an absolute vacuum. There is no difference. Although, there may be energy passing through the empty space or vacuum in the form of electromagnetic waves, or gravitational or magnetic fields.
A solid has little free space between particles.
empty space
Empty space, mainly.
In a gas, the space between gas particles is largely empty. The particles are far apart compared to their size, with a lot of space between them. This allows gas particles to move freely and independently of one another.
Between particles of matter, there is generally empty space, as particles themselves are miniscule and tend to have significant gaps between them. This space is primarily occupied by fields like electromagnetic fields or gravitational fields.
Porosity refers to the amount of empty space that is between particles of material. When something has a low porosity, it does not have much of this space between its particles.
The space between molecules is called inter molecular space.
Nothing but the space between particles is called vacuum.
The space in between gas molecules is not "just empty space." It is filled with constantly moving and colliding molecules. Gas molecules are in constant motion, so even though there may be more space between them compared to liquids or solids, the space is not truly empty.
Very probable this space is empty, is vacuum.
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.
Electric and gravitational force can act through "empty" space.
The empty space within an atom is not truly "empty" but is occupied by the nucleus and electrons. These particles interact through electromagnetic forces that repel other matter from moving through the space inside an atom. The forces between the particles maintain the structure and integrity of the atom.