| 11. | The ideal gas law is very simply derived from first principles in stat mech as well.
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| 12. | The ideal gas law does not make an assumption about the specific heat of a gas.
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| 13. | For an ideal gas, the ideal gas law applies without restrictions on the specific heat.
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| 14. | A compressibility factor of one also requires the four state variables to follow the ideal gas law.
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| 15. | However, the ideal gas law is a good approximation for most gases under moderate pressure and temperature.
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| 16. | Models of sound waves as pressure waves in my physics class seem to assume the ideal gas law.
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| 17. | Now heating hydrogen should reduce its density, but will a supercritical fluid respect the ideal gas law?
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| 18. | The three gas laws in combination with Avogadro's law can be generalized by the ideal gas law.
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| 19. | For the majority of gas-dynamic problems, the simple Ideal gas law is the appropriate state equation.
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| 20. | In accordance with the ideal gas law, a compression operation will raise the temperature of the compressed output.
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