Preparing 40mM TES pH 7.4 - Calculating A-/HA

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To prepare a 40mM TES buffer at pH 7.4, the molecular weight (MW) of TES is 229.25 g/mol, which refers to the acid form. The calculation involves determining the ratio of acid to base using the Henderson-Hasselbalch equation, resulting in approximately 56% base and 44% acid. The amount of TES needed for 100 mL is calculated to be 0.917 g. To achieve the desired pH, a strong base is required to convert 44% of the acid to its conjugate base, with a total of 0.00224 moles of strong base needed. Overall, the calculations emphasize the importance of accurately determining the proportions of acid and base to maintain the target pH.
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Homework Statement



prepare 40mM TES buffer pH 7.4
prepare 100mls of it
mw TES = 229.25
pka = 7.5



Homework Equations



ph = pka +log(A-/HA)



The Attempt at a Solution



My problem is that I don't know what the MW of the acid or base is for this buffer. Is the given MW the acid, and I subract a proton weight for the base or something? I can do the calculation though:



7.4 = 7.5 +log(A-/HA)

-.1 = log(A-/HA)

A-/HA = .79

56% base
44% acid

.56* 40mM * MW of base *.1L = moles of base
.44*40mM *MW of acid *.1L = moles of acid

So how should I figure out the MW of acid and base?
 
Physics news on Phys.org
http://en.wikipedia.org/wiki/TES_(buffer )

Given molar mass refers to the acid.
 
Last edited by a moderator:
Borek said:
http://en.wikipedia.org/wiki/TES_(buffer )

Given molar mass refers to the acid.

Thank you,

Ok, that's kind of what I thought. So the acid MW is 229.25, and the base would be (229.25 - 1.008) is that correct?
 
Last edited by a moderator:
You don't need molar mass of the conjugate base. Use enough acid to prepare 40 mM solution, neutralize it with any strong base.
 
so I would go:


229.25g/mol * .04moles/liter *.1L = .917g TES added

then to calulate strong base needed to convert 56% of acid to base

.04moles/liter *.1L = .004 moles TES * .56 = .00224 moles of strong base needed
 
Check your math. If more than half of the acid is converted to base pH is higher than pKa.

But in general you are on the right track.
 
Borek said:
Check your math. If more than half of the acid is converted to base pH is higher than pKa.

But in general you are on the right track.

whoops it should be 44% converted to base
 

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