Assuming all other variables are kept the same, the volume would double.
The volume is doubled.
Because kelvin temperature has a simple relationship with volume, according to Charles's' law if the kelvin temperature becomes doubled at constant pressure the volume of the gas also becomes doubled, this relation is not with Celsius or Fahrenheit temperature.
pV = nRT we can firstly assume that n (number of moles) and R (gas constant) do not change and as pressure is also kept constant, the temperature must be proportional to the volume. Thus if temperature is increased from 27C (300K) to 327C (600K) and is doubled, the volume must also double.
At low temperature and high pressure, the VOLUME of the gas will be reduced.
The volume of the gas will decrease. the gas will also attempt to increase in temperature.
From Boyle ideal gas law P1V1/T1 = P2V2/T2 so volume is reduced by a factor of 4
From Boyle ideal gas law P1V1/T1 = P2V2/T2 so volume is reduced by a factor of 4
The volume is doubled.
Charles Law (also known as the law of volumes) describes how gases tend to expand or contract with temperature changes.If the temperature changes and the gas molecules and pressure remains the same then the volume will increase or decrease at the same rate that the temperature changes.Since the temperature doubled the volume will double to 6L.
Charles' law states that the volume of a gas is directly proportional to its absolute temperature. So, when temperature is doubled, the volume of the gas is doubled. A gas burner increases the temperature of the air inside the balloon, which increases its volume, making it less dense the air around it, making it float.
Because kelvin temperature has a simple relationship with volume, according to Charles's' law if the kelvin temperature becomes doubled at constant pressure the volume of the gas also becomes doubled, this relation is not with Celsius or Fahrenheit temperature.
The pressure is decreased to 50 %.
For the pressure to remain the same, the temperature would double if the volume also doubled.
.. thenEITHER the pressure is halved for the same amount (moles) of gas,ORthe amount (moles) of gas is doubled at the same pressure,ORany valid combination of these possibillities.
The pressure of the gas increase.
If you let it expand until the new pressure is the same as the original pressure, then the volume will be doubled. But if you want, you could restrict it to stay in the same volume as before. It could do that, but the pressure would double.
pV = nRT we can firstly assume that n (number of moles) and R (gas constant) do not change and as pressure is also kept constant, the temperature must be proportional to the volume. Thus if temperature is increased from 27C (300K) to 327C (600K) and is doubled, the volume must also double.