It is less
The volume of the real gas is much greater than the volume of the ideal gas.
it is much less because a
t high pressures the temp drops
It is less
Most commonly, this refers to the volume of a gas at Standard conditions of Temperature and Pressure (often abbreviated, STP). This standard allows accurate comparisons of volumes. The volume of a gas (any gas) at STP is 22.4 liters per mole.
They would have the same volume, as long as they are in the same conditions.
In a closed system the pressure increase. In other conditions the volume increase and the density decrease.
At constant temperature and pressure the ratios are equal.
According to Charles law, the volume of gas decreases with lower temperatures and increases with higher temperatures
Pressure*Volume=Number of atoms*gas constant*temperature PV=nRT
The Ideal Gas Laws describe the relationship of temperature, pressure, and volume for a gas. These three things are all related. At lower temperatures a gas will exert lower pressure if the volume remains the same, or can exert the same pressure but in a smaller volume.
You can't compare pressure with volume. Presumably, somebody was talking about something being greater AT constant pressure, compared to constant volume.
An ideal gas is, precisely, an idealization - a ficticious substance that will NOT liquify, but remain a gas, and have a volume that is exactly proportional to the temperature (at a given pressure). Real gases are an approximation to an ideal gas, under a wide variety of conditions, but at low temperatures, or high pressures, there are discrepancies.
Robert Boyle (Boyle's Law).
They would have the same volume, as long as they are in the same conditions.
Most commonly, this refers to the volume of a gas at Standard conditions of Temperature and Pressure (often abbreviated, STP). This standard allows accurate comparisons of volumes. The volume of a gas (any gas) at STP is 22.4 liters per mole.
increased pressure and/or increased volume, depending on conditions that you did not provide in your question
In the relationship between volume and pressure when volume increases pressure decreases and when volume decreases pressure increases.
Volume and pressure vary indirectly, which means that when one goes up, the other goes down. If the pressure goes up, the volume goes down. If the volume goes up, the pressure goes down.Mathematically:P1V1 = P2V2The left side represents the beginning conditions, and the right side represents the pressure and temperature that have changed. Note that this formula assumes constant mass and temperature.
they become liquids at a certain temperatures
The volume is constant. The pressure will increase.The volume is constant. The pressure will increase.