due to the lack of polarity in the hydrogen molecule as a result of it containing two of the same atom, and also the dominant force between the hydrogen molecules is the repulsion force, that tends to increase the volume
z = 1 remember z = f(Tr,pr) Source: I'm a ChE!
The compressibility factor (Z) is defined as the ratio of the molar volume of a gas to the molar volume predicted by the ideal gas law. At Boyle's temperature, a gas behaves ideally, meaning it follows the ideal gas law closely. Therefore, the compressibility factor is unity (Z = 1) because the actual volume of the gas is equal to the volume predicted by the ideal gas law, indicating no deviations due to intermolecular forces or molecular size.
at what pressure you operate your gas line or Gas turbine then at what pressure you pay your gas bill gas haet value at standard condition is diffent from heating value at operation condition
The compressibility factor is greater than 1 when gases are under high pressure, indicating that the gas particles are closer together than would be predicted by ideal gas behavior. This can be attributed to intermolecular forces and molecular interactions that cause the gas molecules to occupy less volume than expected.
The compressibility of kerosene is typically low, reflecting its liquid nature. It generally has a compressibility factor around 0.001 to 0.002 per atmosphere, indicating that it does not significantly change in volume under pressure. This characteristic makes kerosene relatively incompressible compared to gases. Exact values may vary slightly based on specific kerosene formulations and temperature conditions.
The compressibility of Jetfuel is 0.88x10-9 m2/N
For an Ideal gas(steam), the compressibility factor is obviously unity under all conditions whereas for real gas(steam), the compressibility factor may be less or more than unity based on the actual conditions. With best regards, elavazhgan.
This statement is true because 1 is a factor of any 2 positive integers and so is always a common factor and since it is the smallest or lowest positive integer, it is always the lowest common factor.
1.0
At this condition the compressibility factor will approximately be 1.03936 This shows that the air will behave al most as an ideal gas at very high pressure
The GCF will always be a positive number.
z = 1 remember z = f(Tr,pr) Source: I'm a ChE!
The least (or lowest) common factor of any two positive numbers will always be: 1The GCF is 2.
The least common factor of 7 and 14 is 1. The least (lowest) common factor of two positive integers is always 1.
If you square any real number it will always be positive.
The super compressibility factor of natural gas depends on its composition, temperature, and pressure conditions. It is typically used to correct for the non-ideal behavior of gas at high pressures and low temperatures to accurately predict its volume.
The least common factor of any set of integers is 1.