The ideal Gas Law states the following:
pV=nRT
p=pressure [pa]
V=volume [m³]
n=number of moles
R=constant
T=temperature [K]
So, if you multiply the number of moles by 2, and all the other variables are not changed, your volume will also be multiplied by 2.
The volume is doubled.
At a constant volume the pressure increase.
The ideal Gas Law states the following: pV=nRT p=pressure [pa] V=volume [m³] n=number of moles R=constant T=temperature [K] So, if you multiply the number of moles by 2, and all the other variables are not changed, your volume will also be multiplied by 2.
the volume doubles
the volume doubles
The volume is doubled.
At a constant volume the pressure increase.
The ideal Gas Law states the following: pV=nRT p=pressure [pa] V=volume [m³] n=number of moles R=constant T=temperature [K] So, if you multiply the number of moles by 2, and all the other variables are not changed, your volume will also be multiplied by 2.
According to Avogadro's Law, the number of moles is proportional to the volume. Therefore, if the number of moles of gas decreases, the volume also decreases.
the volume doubles
the volume doubles
the volume doubles
The product PV remain constant in a closed system at constant temperature.
When the number of moles of a gas doubles and all else is constant, then the volume also doubles.
When the number of moles of a gas doubles and all else is constant, then the volume also doubles.
When the number of moles of a gas doubles and all else is constant, then the volume also doubles.
If the number of moles doubles, the volume will also double, all things being equal.