Why Methanol is Best for ASA Titration w/ NaOH

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SUMMARY

Methanol is the preferred solvent for titrating acetylsalicylic acid (ASA) with sodium hydroxide (NaOH) due to its polar nature, which allows NaOH to dissolve effectively. Unlike ether and chloroform, which are non-polar and do not dissolve NaOH, methanol facilitates the reaction and the visibility of phenolphthalein, a pH indicator used in the titration. Phenolphthalein is soluble in methanol, allowing for accurate pH readings during the titration process. The titration setup must ensure that NaOH does not dissolve excessively in methanol, which could lead to erroneous readings.

PREREQUISITES
  • Understanding of acid-base titration principles
  • Knowledge of solubility concepts, particularly regarding polar and non-polar solvents
  • Familiarity with phenolphthalein as a pH indicator
  • Basic chemistry knowledge regarding acetylsalicylic acid (ASA) and sodium hydroxide (NaOH)
NEXT STEPS
  • Research the solubility properties of various solvents, focusing on polar vs. non-polar characteristics
  • Study the role of phenolphthalein in acid-base titrations and its behavior at different pH levels
  • Explore the concept of titration errors and how to minimize them in laboratory settings
  • Investigate alternative indicators for titrations involving weak acids and strong bases
USEFUL FOR

Chemistry students, laboratory technicians, and educators involved in teaching or conducting acid-base titrations, particularly those focusing on the use of methanol as a solvent.

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Homework Statement


Why would methanol be a better solvent for ASA compared to ether or chloroform, when NaOH is used for titration?

I think I have an idea why:

NaOH is only soluble in polar solvents. Methanol is polar, while ether and chloroform are not. . . .

Does this have anything to do with it.
 
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Do you want us to guess that ASA symbolizes acetyl salicylic acid?
 
Yeah, I know it's an acid. . .

"The CTC handbook lists ASA to be soluble with alcohols, ethers and chlorofoam"

If the solvent is not a problematic variable, then it has to be the titration substance (NaOH)

For this particular lab, NaOH is the reason ethers and chlorofoams are not acceptable as solvents . . .
 
Phenolphthalein was used to indicate the moment the solution became basic.

Phenolphthalein is soluble in methanol, but is it soluble in chloroform or ether?
 
Phenolphthalein is pretty well visible in very low concentrations, so its solubility is not a factor here (it is not a factor even during titration in water).
 
From wiki

"Phenolphthalein is insoluble in water, and is usually dissolved in alcohols for use in experiments. It is itself a weak acid, which can lose H+ ions in solution. The phenolphthalein molecule is colorless. However, the phenolphthalein ion is pink. When a base is added to the phenolphthalein, the molecule ⇌ ions equilibrium shifts to the right, leading to more ionization as H+ ions are removed. This is predicted by Le Chatelier's principle."

It says it is usually dissolved in alcohol (such as methanol). There has to be a reason for this.
 
rss14 said:
It says it is usually dissolved in alcohol (such as methanol). There has to be a reason for this.

An obvious one - it has to be added to water solution, but it is insoluble in water. Hence it is dissolved in methanol (or ethanol) and you add it to water in form of alcoholic solution. This way after dilution of alcohol you end with water pheolpthalein solution, could be also with a very fine supsension. That's enough.
 
And another question. Can the methanol provide a source of error? Can a certain volume of NaOH dissolve into methanol instead of react with ASA to neutralize it? Will this lead to a higher reading of NaOH used to neutralize ASA?
 
Borek said:
An obvious one - it has to be added to water solution, but it is insoluble in water. Hence it is dissolved in methanol (or ethanol) and you add it to water in form of alcoholic solution. This way after dilution of alcohol you end with water pheolpthalein solution, could be also with a very fine supsension. That's enough.

So this same process can be done by chloroform and ether?
 
  • #10
Another question:
Phenolphthalein stays purple when the pH is between 8.2 and 12. When NaOH completely neutralizes ASA, the pH will be 7. This means an excess of NaOH (the base) had to be added until the solid purple appears.

This is a source of error correct? A universal indicator should have been used ?
 
  • #11
rss14 said:
Another question:
Phenolphthalein stays purple when the pH is between 8.2 and 12. When NaOH completely neutralizes ASA, the pH will be 7. This means an excess of NaOH (the base) had to be added until the solid purple appears.

This is a source of error correct? A universal indicator should have been used ?

Nvm, ASA is a weak acid, and the equivalence point is at a pH of 8.2.

Can someone please answer my other question though?
 
  • #12
What do you mean by "NaOH will dissolve into methanol". Try to precisely describe the titration set up and where this methanol is.
 

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