| 1. | ;Imagine that we have a solid pressure vessel enclosing an ideal gas.
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| 2. | For an ideal gas that means that you stay on an isotherm.
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| 3. | This is assuming constant temperature and validity of the ideal gas law.
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| 4. | The ideal gas law is an extension of experimentally discovered gas laws.
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| 5. | For an ideal gas, this means that the process is also isothermal.
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| 6. | For an ideal gas, PV does not change during a Joule-Thomson expansion.
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| 7. | The enhancement factor is equal to unity for ideal gas systems.
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| 8. | For an ideal gas the compressibility factor is Z = 1 per definition.
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| 9. | This implies that the pressure of an ideal gas has an entropic origin.
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| 10. | The RMS speed of an ideal gas is calculated using the following equation:
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