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No, that's why you call it real gas. For an ideal gas the size of the particle, that means the volume of interaction is zero, for real gases not. An effect of real gases is the cool down (or heat up) of an gas which is expanded (compressed). Another effect is that you can get liquids.
decreases
Cooling something down does not generally change its mass, and may or may not change its volume. Cooling a gas will change the volume (if the pressure remains the same). When you cool something down, you most directly change its heat energy.
Three variables that effect volume (V) of gas are pressure (P), temperature (T), and how many moles (n) of gas are present in a system. Decreasing any of these variables correspond to gas volume reductions. These can be related by the Ideal Gas Law equation of PV = nRT. R is the Ideal Gas constant of .0821 Liters/ATM*moles*Kelvin.
In a container the volume remain constant but the pressure increase.
No, it does affect the volume of a gas according to the ideal gas law (PV=nRT).
If possible, the gas will increase in volume. If it is unable to increase in volume for some reason, it will increase in pressure.
The most obvious reason is that the gas, which is responsible for the cooling effect has leaked out of the tubes. So call the nearest mechanic for attending the gas leakage and re-filling of the gas. If gas leaks again and again, get the complete cooling coil replaced.
according to the ideal gas equation , volume will be four time of initial value.
decreases
No, that's why you call it real gas. For an ideal gas the size of the particle, that means the volume of interaction is zero, for real gases not. An effect of real gases is the cool down (or heat up) of an gas which is expanded (compressed). Another effect is that you can get liquids.
Cooling something down does not generally change its mass, and may or may not change its volume. Cooling a gas will change the volume (if the pressure remains the same). When you cool something down, you most directly change its heat energy.
Three variables that effect volume (V) of gas are pressure (P), temperature (T), and how many moles (n) of gas are present in a system. Decreasing any of these variables correspond to gas volume reductions. These can be related by the Ideal Gas Law equation of PV = nRT. R is the Ideal Gas constant of .0821 Liters/ATM*moles*Kelvin.
Heating a gas increases its' volume if the pressure remains constant. Heating a gas with the volume consant increases the pressure. See the Related Question linked to the the left of this answer: = How do you solve an Ideal Gas Law problem? =
An increase in temperature will result in an increase in volume so long as it is not confined, while adecrease in temperature will result in a decease in volume.
In a container the volume remain constant but the pressure increase.
Ozone does have a cooling effect. It is because of its properties.