Calculating the Ka from pH and initial concentration

AI Thread Summary
A 0.0200 mol/L acid solution with a pH of 2.347 results in a hydronium ion concentration of approximately 4.5 x 10^-3 mol/L, leading to a percent ionization of 22.5%. However, there is confusion regarding the calculation of the acid dissociation constant (Ka), with multiple users suggesting that the computed value of 1.3 x 10^-3 is incorrect. The equilibrium expression is correctly set up, but the calculation needs to be re-evaluated, as it appears the user may be miscomputing the numeric expression. A suggestion is made to perform the calculation manually to verify the results. Accurate computation is crucial for determining the correct Ka value.
maceng7
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Homework Statement


A 0.0200 mol/L acid solution has a pH of 2.347. Calculate the percent ionization of this acid. Calculate the Ka of this acid

The Attempt at a Solution



I first calculated the hydronium ion concentration: 10^-pH = 10^-2.347 = 4.5*10^-3

I then used this concentration to calculate the percent ionization: 0.0200 / 4.5*10^-3 = 22.5%

Can anyone confirm this answer. Now the second part of the question asks for the Ka. My prof said that if you got 1.3*10^-3 as the Ka value it is wrong. I keep getting this value and it makes no sense why it would be anything other than this value:

Since the ratio in the balanced chemical equation is 1:1 , the equilibrium expression is:
Ka = (4.5*10^-3)(4.5*10^-3) / (0.0200 - 4.5*10^-3)

solving for x I get 1.3*10^-3, however this isn't suppose to be the right answer.. can anyone tell me where I've gone wrong or maybe my prof is mistaken? Thanks.
 
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Your Ka value is wrong simply because you miscomputed your numeric expression. The numeric expression seems good; Try recomputing and you will, or should find a much smaller Ka value.
 
I don't know I've put it into my calculator numerous times and I get the same value,
 
You are incorrectly handling this computation on the calculator. Your expression seems to be written well and appears credible, so as a check, try doing the computation the old fashioned, manual way. You SHOULD find something about ?.?? x 10-6
 
maceng7 said:
I first calculated the hydronium ion concentration: 10^-pH = 10^-2.347 = 4.5*10^-3

OK

I then used this concentration to calculate the percent ionization: 0.0200 / 4.5*10^-3 = 22.5%

Can anyone confirm this answer.

No.

\frac {0.0200} {4.5\times 10^{-3}} = 4.44

Since the ratio in the balanced chemical equation is 1:1 , the equilibrium expression is:
Ka = (4.5*10^-3)(4.5*10^-3) / (0.0200 - 4.5*10^-3)

solving for x I get 1.3*10^-3

Expression looks OK to me, but first - there is no x to solve for, second - as symbolipoint stated, it evaluates to something completely different.
 
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