I think you meant what happens to the gas particles when the temperature decreases. If the volume of gas is constant(eg in a fixed container), the pressure of the gas will decrease. If the gas is in a container with a variable volume(eg. balloon), the volume of gas will decrease.
A decrease in temperature or a decrease in the number of gas molecules in the container will cause a decrease in gas pressure. Alternatively, if some of the gas molecules escape from the container, the pressure will also decrease.
When evaporation happens, the temperature decreases. This is because the energy required for the phase change from liquid to gas is absorbed from the surroundings, leading to a cooling effect.
A decrease in temperature or a decrease in the number of gas particles in the container will cause a decrease in gas pressure. Additionally, if some of the gas particles escape from the container, it will also lead to a decrease in pressure.
If temperature remains constant and the volume of gas increases, the pressure will decrease. This is described by Boyle's Law, which states that pressure and volume are inversely proportional when temperature is constant.
the pressure decreases D:
Green house effect causesthe temperature. temperature will decrease if gas levels down.
The temperature of the gas decrease.
the pressure will also decrease
The viscosity increase when the temperature decrease.
The pressure of the gas would also decrease.
In this case the pressure decrease.
In this case the pressure decrease.
The molecules collide less frequently, which normally coincides with a decrease in temperature.
If the volume stays the same, the pressure will decrease.
The molecules collide less frequently, which normally coincides with a decrease in temperature.
A decrease in temperature or a decrease in the number of gas molecules in the container will cause a decrease in gas pressure. Alternatively, if some of the gas molecules escape from the container, the pressure will also decrease.
When evaporation happens, the temperature decreases. This is because the energy required for the phase change from liquid to gas is absorbed from the surroundings, leading to a cooling effect.