It will get colder. It also might freeze.
It turns into a liquid. Just like if you were to remove thermal energy from a substance the atoms will slow down.
When thermal energy is added the matter goes slower
They stop moving and stop producing energy.
if you add it will stay liquid but if you remove it will freeze
I would not think so. It has thermal energy though.
It turns into a liquid. Just like if you were to remove thermal energy from a substance the atoms will slow down.
When thermal energy is added the matter goes slower
They stop moving and stop producing energy.
if you add it will stay liquid but if you remove it will freeze
Thermal energy basically is heat. Thermal energy (heat) can change a solid to a liquid state is called melting. The change from a liquid to a solid is freezing. The change from a liquid to a gas is known as vaporization. The opposite of vaporization is condensation. So yeah, thermal energy affects any state of a substance.
You remove energy from it's solid state; then it returns to a liquid. The H20 molecules move further apart when you go from a solid to a liquid (and even further when it goes to a gas)
Remove enough heat from the liquid, it changes to a solid- known as freezing.
I would not think so. It has thermal energy though.
A loss of kinetic energy in the atoms or molecules of a sample of matter will result in the cooling of the sample. That sample will get colder as remove thermal energy from it. The atoms/molecules of a substance have kinetic energy associated with them. This kinetic energy is the result of atomic and/or molecular motion. As a sample of matter cools, the atoms and/or molecules will lose mobility. Loss of mobility and vibrational energy, which are forms of kinetic energy, will become apparent when thermal energy is removed from the sample.
Yes. Heat sinks around computer processors are colder than the processors: they "remove" thermal energy from the processors and so stop them from overheating.
Thermal energy never disappears, but it can be moved from one place to another, which is what a refrigerator does. If you examine your refrigerator you will be able to observe that there are heat exchange tubes (usually on the back) which get hot as they pump heat from the interior to the exterior of the refrigerator.
The molecules in a solid are held by strong intermolecular bonds. For the solid to melt, these bonds have to be broken. Since energy is needed to break the intermolecular bonds, the thermal energy supplied at the melting point is used to do the work to break the intermolecular bonds between the molecules of the solid. Once the intermolecular bonds are broken, the molecules can then move out of their fixed positions. Hence it can then be said that the solid has melted, which is the change of state from solid to liquid. This explains why temperature remains constant during the melting phases.