Particles in a solid are closer together and lower in energy than those in a liquid. The closer together particles are, the less they move. Since the amount of motion directly corresponds to the internal energy, a substance with closer particles will have less internal energy. When particles are close together and move less, the structure is more stable than when they move around more freely. Therefore a solid, which is very stable, has closer particles and less energy than a liquid, which is less stable, which in turn has closer particles and less energy than a gas, which is very unstable in its structure.
Yes. All atomic sized particles move, by vibrating. no matter how cold they are.
Yes, most on the time
When anything is cooled its particles move more slowly.
Particles generally move faster in a gas compared to a liquid. In a gas, particles have more energy and move more freely and quickly as they are not as tightly packed as in a liquid. Conversely, in a liquid, particles are closer together and interact more, resulting in slower movement.
No. When air cools air particles move closer together. When air warms air particles move father away from each other.
The particles move closer together and are practically so close they cannot move.
In terms of particles, "compression" means that particles move closer together.
In terms of particles, "compression" means that particles move closer together.
In terms of particles, "compression" means that particles move closer together.
the particles will move closer together
Particles in a solid are closer together and lower in energy than those in a liquid. The closer together particles are, the less they move. Since the amount of motion directly corresponds to the internal energy, a substance with closer particles will have less internal energy. When particles are close together and move less, the structure is more stable than when they move around more freely. Therefore a solid, which is very stable, has closer particles and less energy than a liquid, which is less stable, which in turn has closer particles and less energy than a gas, which is very unstable in its structure.
Yes. All atomic sized particles move, by vibrating. no matter how cold they are.
it loses energy that makes it not move as quickly, therefore it gets smaller. that answer your question?
The particles in the rings around planets move according to Kepler's Third Law. In other words, the particles closer to the planet move faster than the particles further outside.
If the object is heated it will expand because the particles gain energy from the heat and move about more vigorously causing them to bump into each other and move further and further apart. When the substance is cooled (gets cold) the particles slow down and move closer and closer together causing the object to contract.
* which of the foolowing occurs when a mass of air rises into the atmosphere? A) it becomes warmer because the particles move closer together B) it becomes cooler because the particles move closer together C) it becomes cooler because the particles move farther apart D) it becomes warmer beaouse the particles move farther apart please help and thank you :)