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A 0.25-mol sample of a weak acid with an unknown Pka was combined with 10.0-mL of 3.00 M KOH, and the resulting solution was diluted to 1.500 L. The measured pH of the solution was 3.85. What is the pKa
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A 0.25-mol sample of a weak acid with an unknown Pka was combined with 10.0-mL of 3.00 M KOH, and the resulting solution was diluted to 1.500 L. The measured pH of the solution was 3.85. What is the pKa of the weak acid?

User Semsamot
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2 Answers

3 votes

Answer : The value of
pK_a of the weak acid is, 4.72

Explanation :

First we have to calculate the moles of KOH.


\text{Moles of }KOH=\text{Concentration of }KOH* \text{Volume of solution}


\text{Moles of }KOH=3.00M* 10.0mL=30mmol=0.03mol

Now we have to calculate the value of
pK_a of the weak acid.

The equilibrium chemical reaction is:


HA+KOH\rightleftharpoons HK+H_2O

Initial moles 0.25 0.03 0

At eqm. (0.25-0.03) 0.03 0.03

= 0.22

Using Henderson Hesselbach equation :


pH=pK_a+\log ([Salt])/([Acid])


pH=pK_a+\log ([HK])/([HA])

Now put all the given values in this expression, we get:


3.85=pK_a+\log ((0.03)/(0.22))


pK_a=4.72

Therefore, the value of
pK_a of the weak acid is, 4.72

User Docunext
by
5.9k points
3 votes

The pKa of the 0.25 mol sample of a weak acid calculated after its reaction with 10.0 mL of 3.00 M KOH is 4.72.

When the weak acid reacts with KOH, we have:

HA(aq) + KOH(aq) ⇄ H₂O(l) + KA(aq) (1)

The pKa of the reaction above can be calculated with the Henderson-Hasselbalch equation:


pH = pKa + log(([KA])/([HA])) (2)

Where:

pH = 3.85

[HA]: is the concentration of the weak acid

[KA]: is the concentration of the salt

To find the pKa, we need to calculate the values of [HA] and [KA].

First, let's find the number of moles of KOH.


n_(KOH) = C_(KOH)*V_(KOH) = 3.00 \:mol/L*0.010 \:L = 0.03 \:moles

Now, when the weak acid reacts with KOH, the number of moles of the acid that remains in the solution is:


n_(a) = n_(i) - n_(KOH) = 0.25 \:moles - 0.03 \: moles = 0.22 \:moles

When the resulting solution is then diluted to 1.500 L, the concentration of the HA and KA is:


[HA] = (n_(a))/(V) = (0.22\:moles)/(1.5 L) = 0.15\: mol/L


[KA] = (0.03 \:moles)/(1.5 L) = 0.02 \:mol/L

After entering the values of pH, [HA], and [KA] into equation (2), we have:


3.85 = pKa + log((0.02)/(0.15))


pKa = 4.72

Therefore, the pKa of the weak acid is 4.72.

A 0.25-mol sample of a weak acid with an unknown Pka was combined with 10.0-mL of-example-1
User Charles Follet
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