Dissociation constants of NaCl/KCl

AI Thread Summary
NaCl and KCl are highly ionic salts that nearly completely dissociate in water, making them suitable for concentrated solutions. In a 1 M solution, both salts are expected to be 100% ionized, as their solubility exceeds 34-35 wt/wt% at 20°C. However, at lower temperatures, KCl solutions have a lower concentration compared to NaCl. In concentrated solutions, ionic pairs can form, leading to a scenario where the salts appear "not dissociated," which affects measurements like osmotic pressure. While dissociation constants are difficult to find due to high ionic strength and varying activities, creating a table of dissociation ratios may be more practical. For further information, resources like dissociationconstant.com may be useful.
clarinets
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What are the dissociation constants of NaCl and KCl respectively? I want to determine how much of the salt dissociates in a 1 M solution. Thanks!
 
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We know that both salts KCl and NaCl are highly ionic, and can confirm that they are almost completely ionized in water allowing them to make very concentrated solutions. Without knowing the dissociation constants, we can still surmise this from the table of solubilities found in Wiki ...\Solubility_Table. Both NaCL and KCl are soluble to the extent of 34-35 wt/wt% at 20C which is well above 1 M... One would expect that 1M solutions would be 100% ionized of either NaCl or KCl. It is interesting to note that as the temperature is dropped to 0C the KCl saturated solution is lower concentration than the NaCl saturated solution at 0C...(though both are still well above 1 M). KCl would be expected to crystallize first if solutions are concentrated enough and cooled!
 
It is not that easy, they do create ionic pairs in concentrated solutions, which is equivalent to the salt being "not dissociated". It is especially apparent when comparing osmotic pressure measured and calculated from the salt concentration.

But I doubt you will find a dissociation constant. For the effect to be visible you need relatively high concentrations, which means high ionic strength, which means activities differ substantially from 1 - and it is easier and safer to prepare a table of dissociation ratios, than to determine dissociation constant.
 
Hello clarinets,

I would recommend to checkout the website (dissociationconstant.com), hopefully it would be helpful to you.
 

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