Which statement defines the Joule-Thomson coefficient?

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Multiple Choice

Which statement defines the Joule-Thomson coefficient?

Explanation:
Joule–Thomson coefficient measures how temperature changes when a real gas is throttled—that is, expanded with essentially no heat transfer and no external work, so enthalpy stays the same. It is defined as μ_JT = (∂T/∂P)_H. This is the rate of change of temperature with pressure during a throttling process at constant enthalpy. For real gases, intermolecular forces cause a temperature change during throttling: if μ_JT is positive, a drop in pressure cools the gas; if negative, it warms. In the ideal gas limit, enthalpy depends only on temperature, so μ_JT = 0 and no temperature change occurs during throttling.

Joule–Thomson coefficient measures how temperature changes when a real gas is throttled—that is, expanded with essentially no heat transfer and no external work, so enthalpy stays the same. It is defined as μ_JT = (∂T/∂P)_H. This is the rate of change of temperature with pressure during a throttling process at constant enthalpy. For real gases, intermolecular forces cause a temperature change during throttling: if μ_JT is positive, a drop in pressure cools the gas; if negative, it warms. In the ideal gas limit, enthalpy depends only on temperature, so μ_JT = 0 and no temperature change occurs during throttling.

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