This is explained by Charle's law.
Keeping volume constant, as the temperature increases then the pressure of the gas also increases.
Increasing the temperature the number of particles remain constant and the pressure increase.
if kelvin temp is halved, the volume is halved if pressure is constant.
In a closed system with constant pressure and no input or output of heat, the gas temperature will remain constant. In that same system, if the pressure is increased, then the gas temperature will also increase. If pressure is decreased, then the gas temperature will decrease.
"Constant pressure" means the pressure must not change.
In a container the volume remain constant but the pressure increase.
Increasing the temperature the number of particles remain constant and the pressure increase.
if kelvin temp is halved, the volume is halved if pressure is constant.
In a closed system with constant pressure and no input or output of heat, the gas temperature will remain constant. In that same system, if the pressure is increased, then the gas temperature will also increase. If pressure is decreased, then the gas temperature will decrease.
PV=nRT where P=pressure, V=volume, n=no. of moles, R=gas constant, T=temperature(K) since volume and the number of moles remain constant, they can be ignored and we can assume:- that P is proportional to T and thus if temperature is increased, pressure will also increase.
"Constant pressure" means the pressure must not change.
The pressure increases.
In a container the volume remain constant but the pressure increase.
As you decrease the volume, the pressure will increase proportionally, and if you increase the volume, then the pressure will decrease.
if you increase the pressure, the boiling point (temperature) will also increase.
pressure is directly propotional to temperature, so if the pressure is increased then the temperature will also increase and vice-versa.
no
PV=nRT where P=pressure, V=volume, n=no. of moles, R=gas constant, T=temperature(K) since volume and the number of moles remain constant, they can be ignored and we can assume:- that P is proportional to T and thus if temperature is increased, pressure will also increase.