The Joule-Thomson experiment involves an isenthalpic thermodynamic process, and the measurements performed in a Joule-Thomson experiment permit evaluation of the quantity μJ-T = (∂T/∂P)H ≈ ∆T/∆P. The observed values of μJ-T are:

> 0 for nearly all gases.
< 0 for nearly all gases.
> 0 only for gases that exhibit ideal-gas P-V-T behavior.

Question

The Joule-Thomson experiment involves an isenthalpic thermodynamic process, and the measurements performed in a Joule-Thomson experiment permit evaluation of the quantity μJ-T = (∂T/∂P)H ≈ ∆T/∆P. The observed values of μJ-T are:

Accepted Answer

> 0 for nearly all gases.

Answer

< 0 for nearly all gases.

Answer

> 0 only for gases that exhibit ideal-gas P-V-T behavior.

Answer

independent of the initial temperature and pressure of the gas undergoing the Joule-Thomson expansion process.

The Joule-Thomson experiment involves an isenthalpic thermodynamic process, and the measurements performed in a Joule-Thomson experiment permit evaluation of the quantity μJ-T = (∂T/∂P)H ≈ ∆T/∆P. The observed values of μJ-T are:

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The Joule-Thomson experiment involves an isenthalpic thermodynamic process, and the measurements performed in a Joule-Thomson experiment permit evaluation of the quantity μJ-T = (∂T/∂P)H ≈ ∆T/∆P. The observed values of μJ-T are:

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About | Explore | User Guide | Topics | Subjects | Doubt Solver | Career Aptitude Test | Answers | Free Tools | What Should We Know? Privacy | Terms |

Without work one finishes nothing. - Ralph Waldo Emerson© 2026 Fatskills.com

All trademarks, logos and brand names are the property of their respective owners. All company, product and service names used in this website are for identification purposes only. Use of these names, trademarks and brands does not imply endorsement.

About | Explore | User Guide | Topics | Subjects | Doubt Solver | Career Aptitude Test | Answers | Free Tools | What Should We Know?
Privacy | Terms |

Without work one finishes nothing. - Ralph Waldo Emerson
© 2026 Fatskills.com