The answer would depend on the pressure attained by the cooker.
Water vapor occupies about 1700 times more volume than liquid water. So, if you changed all the water in a pressure cooker to water vapor, the volume occupied by the water vapor would be about 1700 times the volume of the liquid water.
I'm not even sure what this question is supposed to mean. On the off chance that it might be the answer you're looking for: A liquid becomes a gas when its vapor pressure becomes equal to the atmospheric pressure.
Yes, liquid does occupy space. All matter (liquids, solids, gas, etc) occupy space.
When the vacant spaces between particles of a liquid decrease, the liquid becomes more dense and its volume decreases. This can be achieved by applying pressure to the liquid or by cooling it, which causes the particles to come closer together and occupy less space.
Yes all materials occupy space. Any liquid is no different and also does.
A gas is most likely to change to the liquid phase when the pressure on the gas is increased. This is because the same number of molecules will have less space to occupy.
1g water vapour occupies the greatest volume - even at high pressure. 1g of liquid water occupies the least volume. 1g of solid ice is greater volume than liquid water - and this is the only common liquid where the solid is of less volume than the liquid state.
5 mL of water vapor would occupy significantly less volume as a liquid. All gasses occupy more space than their liquid counterparts as the extra energy of gaseous states drive the molecules further apart.
The ability of gases to occupy smaller spaces under higher pressure is due to the compressibility of gas particles. When pressure is applied, the gas particles are forced closer together, reducing the volume they occupy. This behavior is described by Boyle's Law, which states that the volume of a gas is inversely proportional to its pressure, assuming constant temperature. As a result, increasing pressure leads to a decrease in volume, allowing gases to fit into smaller spaces.
At STP, 1 mole of a gas will occupy 22.4 liters; or 0.5 mole will occupy 11.2 liters.
423mL
By volume liquid can occupy the shape of the container ,but has got a fixed volume unless and until subjected to expansion by change in temperature and pressure. that way it is also compressible. but on the other hand solid has got fixed volume and fixed shape. it is less compressible. this is how they are different..