Yes. Since pressure and volume are inversely related, volume decreases when pressure increases (as long as temperature is constant).
Consider the equation: PV=nRT, where n = moles, T is in degrees Kelvin, and R is the gas constant 0.082. Do the algebra and see how: P=nRT/V and the inverses become more easily understood.
If the volume of a gas is increased, it will usually cool down.
If the volume of a gas is increased, it will usually cool down.
If the volume of a gas is increased, it will usually cool down.
If the volume of a gas is increased, it will usually cool down.
Volume and pressure are indirectly proportional - when one increases the other decreases. Provided temperature and the number of moles of gas remains the same, when pressure increases the volume will decrease.
Pressure increases. Pressure and volume are inversely proportional at a fixed temperature.
Temperature would decrease . ( Temperature is directly proportional to pressure if volume is constant )
If the volume of a gas is increased, it will usually cool down.
volume decreases
The pressure increases.
Due to Charles's law, the pressure would increase.
The pressure will increase, proportionally to the decrease in volume. The Gas Law is PV=RT; then PdV + VdP = 0 if the Temperature stays constant.
If the temperature increases, then the volume of the gases cannot stay the same. The pressure will keep building until it overcomes the integrity of the container its contained in and causes an explosion.
Solids- stays the same Liquids- stays the same Gases- decreases You can use the formula PV/T=P2V2/T2 P=initial pressure V=initial volume T=initial temp P2=final pressure V2=final volume T2=final temp
If the volume stays the same, the pressure will decrease.
The pressure increases.
Assuming pressure stays constant, the volume decreases by 25%. PV = nRT.
Volume & pressure are inversely proportionate, if temperature stays constant volume would decrease at a factor proporionate to the increase in pressure.
Dagga
Pressure increases as volume increases, granted the container stays the same.
nothing
This is possible in a closed system.
at constant temperature in a closedcontainer the increase in temperature increases the volume of a gas but not the mass.
That would be Charle's law.
It will remain the same. (:
As volume decreases, pressure increases. eg:- Pressure cooker