Either and both liquifaction &/or freezing.
If you removed energy from neon gas, there would be a decrease in motion and more attraction between the particles.
Since temperature is a measure of kinetic energy, so as kinetic energy increases, temperature must also increase or vice verse
The will move more slowly,
Cooling the air inside a sealed balloon will cause the air particles to slow down and lose energy, resulting in a decrease in pressure. As a result, the balloon will shrink in size due to the decrease in pressure exerted by the air particles on the balloon walls.
Thermal velocity occurs in situations where particles have random kinetic energy due to their temperature. This can happen in gases, liquids, or solids when the particles are vibrating or moving randomly. Thermal velocity is a measure of the average speed of the particles in a substance due to their thermal energy.
Radiation can occur in all three states of matter - solids, liquids, and gases. It is a form of energy transfer that does not require a medium. Radiation can travel through solids, liquids, and gases as electromagnetic waves or particles.
When the average energy of a liquid's particles decreases, the temperature of the liquid will lower. This may lead to a phase change, such as the liquid turning into a solid if the energy decreases enough. Additionally, the movement of the particles within the liquid will slow down as the temperature drops.
the pressure decreases D:
It will decrease
Each material has specific compressibility, the volume decrease.
When you put a balloon in the freezer, the particles of the air inside the balloon will lose energy and slow down, causing them to contract and the balloon to shrink. This is because the cold temperature reduces the kinetic energy of the air molecules, leading to a decrease in pressure inside the balloon.
If energy is removed from a solid, the particles that make up the solid will lose kinetic energy and slow down. This will result in a decrease in temperature, causing the solid to cool down until it reaches thermal equilibrium with its surroundings.