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The amount of kinetic energy increases.
When a gas is compressed, its temperature tends to increase. That means that the average kinetic energy per particle also increases.
As the speed of the particles in gas increases the heat of gas increases as well.
temperature is the measure of a molecule's average kinetic energy, so yes.
the amount of motion of each molecule increases. i.e the amount of disorder increases. since the motion is increasing as an object gets converted from solid to liquid to gas, the energy level increases.
It increases.
As the temperature of a gas increases, the kinetic energy of the particles will also increase.
the kinetic energy increases
This happens in certain circumstances due to what is called the Joule Thomson Effect For most fluids, flow through a valve results in a dropping of both pressure and temperature. Some fluids such as helium,hydrogen have a "reverse Joule-Thompson" effect, which simply means that instead of the temperature dropping along with the pressure, the temperature actually increases. If the gas molecules were so close together that moving apart would give them a lower potential energy, then the molecules repel each other. Expansion lowers the intermolecular potential energy. This means that expansion releases energy from the intermolecular potential, and that energy is picked up by the molecules' kinetic energy. In other words, the gas molecules speed up and the temperature increases.
Isothermal expansion is what keeps gas at a constant temperature. It works by absorbing heat in order to conserve energy.
The amount of kinetic energy increases.
The amount of kinetic energy increases.
The amount of kinetic energy increases.
it increases
The property of gas particles that is measured by temperature is the average kinetic energy. This energy will increase as a gas becomes warmer or the temperature increases.
When a gas is compressed, its temperature tends to increase. That means that the average kinetic energy per particle also increases.
By removing energy, what you mean is reducing temperature. A gas or liquid will contract as it gets colder, and intermolecular spaces will decrease.