How Does the Clausius-Clapeyron Equation Explain Temperature Changes in Liquids?

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The Clausius-Clapeyron equation describes the relationship between changes in pressure and temperature during phase transitions, specifically for liquids and vapors in thermal equilibrium. It highlights how an increase in volume leads to more liquid turning into vapor, causing a decrease in temperature due to the latent heat required for the phase change. Conversely, a decrease in volume results in vapor condensing into liquid, raising the temperature. This principle is applied in low-temperature physics, such as using liquid helium to achieve temperatures below its normal boiling point. Understanding this equation is crucial for manipulating phase changes in various scientific applications.
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The Clausius-Clapeyron equation is given by:

\frac{dP}{dT}=\frac{LJ}{T(V_2-V_1)}

dP is the change in pressure
dT is the change in temperature
L is the Latent heat of fusion/vaporisation
T absolute temperature of substance
V_2-V_1 is the change in volume
J is heat constant

What is the physical significance of this equation?
 
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Reshma said:
The Clausius-Clapeyron equation is given by:

\frac{dP}{dT}=\frac{LJ}{T(V_2-V_1)}

dP is the change in pressure
dT is the change in temperature
L is the Latent heat of fusion/vaporisation
T absolute temperature of substance
V_2-V_1 is the change in volume
J is heat constant

What is the physical significance of this equation?
When a liquid and vapour are in thermal equilibrium in a closed volume at a certain temperature, and the volume is increased slightly, some more liquid turns to vapour. Since the liquid has a latent heat (energy just required to break molecular bonds of liquid) the heat has to be drawn from the liquid so the temperature of the liquid/vapour decreases. (the opposite effect when the volume decreases - some vapour turns to liquid and the temperature increases). The Clausius-Clapeyron equation shows the relationship between a change in volume and the rate of change of vapour pressure with temperature.

AM
 
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Thank you very much, sir!
 
Example

Anderw has described it correctly. Here is an exmple from a lab experience. Those who work in lowtemperature physics employ Liq.He and N2 and make use of this principle to reach temp. below the (normal) boiling point of these liquids. For example. Liq. He4 boils at 4.2K and by pumping over He4 vapour, one can attain temperature as low as 1K ! Said in a crude fashion, this means the He4 molecules having the highest Kin.Energy leavs the liquid surface making the total temp to decrease.
 
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