Want this question answered?
No, particles in a solid only vibrate, whereas particles in a liquid are free to move within the liquid.
Well, for atoms to stop moving, the temperature would have to be at 0 K, aka absolute zero. However, that's theoretically impossible. Anyway, solid molecules barely move, "vibrating" against each other in a tightly packed space. For liquid molecules, they can slide past each other and move about, but there's not much space between the particles. As for gas, the particles are much faster than particles of solid or liquid, and the particles move about freely, bumping into each other.
The particles in a solid move around one point.
No
yes. gas has the fastest moving particles and a solid has the slowest moving particles and particles in a liquid are moving faster than solid particles but not as fast as gas particles.
the range of energies becomes broader
the range of energies becomes broader
They are EXACTLY the same particles but in a liquid they are further apart and free to move round as compared to the particles in the solid form which are fixed in their position, one relative to the other.
the range of energies becomes broader, or increases, as the temperature is increased.
The only way one electron is distinguishable from another is by the difference of their relative energies. Electron's are distinguishable from other particles through various comparisons like mass, charge, spin, etc.
Relative to liquids and gasses, they have the least amount of energy. In terms of the actual particles themselves, the amount of energy they possess depends on their structure and composition along with the temperature.
no but the particles in a solid vibrate
how do particles behave in a solid state
liquid particles do not join the solid particles because the particles of solid are very tightly packed but this is not in the case of liquid
solid particles cannot move.
The particles of a solid are close together and the particles of a liquid are slightly farther apart.
The idea is to learn how the Universe works. Scientists hope that with higher energies, new kinds of particles will be discovered, and that these could give more clues about how the Universe works.