Unraveling the Mystery of NaCl's Low Solubility Curve

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SUMMARY

The discussion focuses on the low solubility curve of sodium chloride (NaCl) compared to other ionic compounds like potassium chloride (KCl) and sodium nitrate (NaNO3). The slope of the solubility curve is directly related to the enthalpy of dissolution, which is quantitatively described by the Van't Hoff equation. NaCl exhibits a significantly smaller enthalpy change (ΔH) during dissolution, resulting in a flatter solubility curve. This relationship is crucial for understanding the thermodynamics of ionic compounds in solution.

PREREQUISITES
  • Understanding of the Van't Hoff equation
  • Knowledge of enthalpy of dissolution
  • Familiarity with solubility curves
  • Basic concepts of Le Chatelier's principle
NEXT STEPS
  • Study the Van't Hoff equation in detail
  • Research the enthalpy of dissolution for various ionic compounds
  • Examine solubility curves of different salts
  • Explore Le Chatelier's principle in the context of solubility
USEFUL FOR

Chemistry students, physical chemists, and professionals involved in materials science or ionic compound research will benefit from this discussion.

enthropy
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Why is Δsolubility / Δtemperature so much lower for NaCl than for other ionic compounds like KCl and NaNO3? (It's solubility curve is almost flat).
 
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Do you know how the slope of the solubility curve is related to the enthalpy of dissolution? This is generally covered in any standard Physical Chemistry text in the chapter on Solutions. Or it may appear in the discussion about Le Chatelier's principle.
 
It doesn't, but I found the Van't Hoff equation and from there it is fairly straightforward.
 
enthropy said:
It doesn't but I found the Van't Hoff equation and from there it is fairly straightforward.
Could you explain further?
 
Sure. Integrating and solving for K, we get K \alpha e^{\Delta H /RT}. Smaller ΔH means smaller rate of change, and NaCl's is much smaller than KCl
 
Close enough (your signs may be off or you use a non-standard sign convention).

I hope you realize that the ΔH here is the enthalpy of dissolution, which is what I was referring to above. And that's why your response "It doesn't" had me a little confused.
 
I dropped the negative sign when typing it here, it becomes K\proptoe^{\frac{-\Delta H}{RT}}
"it doesn't" referred to it's appearance in the text, not my awareness of the relation.
 
Dissolving NaCl?
"Such unjustified aspersion of the molecular character of our most necessary condiment must not be allowed any longer to pass unchallenged."
-- H. E.. Armstrong, Nature, v120, p478 (1927)

He was the last hold-out against ionic theory. :smile:
 

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