, the answer is Charles' Law!
if volume of a gas increases temperature also increases
This is the Gay-Lussac law: at constant volume of a gas the temperature increase when the pressure increase.
The volume of the gas will decrease. the gas will also attempt to increase in temperature.
Volume is proportional to temperature, so if there is any increase in temperature, the volume of the gas will increase proportionally
The increase of the volume of a gas is direct proportional upon the increase of the temperature. This is the Charles law: V1T2=V2T1
The volume of a gas must increase when the temperature of the gas increases.
To increase the volume of a gas * reduce the pressure, or * increase the temperature, or * add more gas
if volume of a gas increases temperature also increases
decreasing the volume available for the gas or increasing its temperature
If possible, the gas will increase in volume. If it is unable to increase in volume for some reason, it will increase in pressure.
An increase of the temperature or a decrease of the pressure.
This is the Gay-Lussac law: at constant volume of a gas the temperature increase when the pressure increase.
Increasing the temperature of gas the volume increase.
An increase of the temperature or a decrease of the pressure.
As indicated by the Ideal Gas Laws, increasing temperature will tend to increase both volume and pressure. Of course, volume can't always increase, that depends upon the flexibility or inflexibility of the container that the gas is in, and if the volume does increase that will counteract the increase in pressure that would otherwise have happened. Temperature, pressure, and volume are all interconnected in a gas.
An increase in temperature will result in an increase in volume so long as it is not confined, while adecrease in temperature will result in a decease in volume.
Increasing the temperature of a gas will increase it's pressure ONLY if the volume is held constant.