Question #9e1a4

1 Answer

The pH values of the 1:1 and 1:4 buffers should remain unchanged on the addition of small amounts of strong acid or base.

In your experiment, you prepared 1:1 and 1:4 NH₃/NH₄⁺ buffers. You measured the pH of each with phenolphthalein. Then you added 1 drop of HCl and 1 drop of NaOH to separate test tubes of the buffers.

We can calculate the pH of an NH₃/NH₄Cl buffer from the equation:

#"pH" = 14.00 - "p"K_"b" + log(("[NH"_3"]")/("[NH"_4^+"]"))#

The value of #"p"K_"b"# for NH₃ is 4.75. So,

#"pH" = 9.25 + log(("[NH"_3"]")/("[NH"_4^+"]"))#

1:1 Buffer

If #("[NH"_3"]")/("[NH"_4^+"]")= 1/1#, then

#"pH" = 9.25 + log(1/1) = 9.25 + 0.00 = 9.25#

1:4 Buffer

If #("[NH"_3"]")/("[NH"_4^+"]")= 1/4#, then

#"pH" = 9.25 + log(1/4) = 9.25 - 0.60 = 8.65#

Phenolphthalein is pink between pH 8.2 and pH 10. Its colour at pH 8.65 might be a little less pink at pH 9.25, but it would be hard to tell the difference.

Your 1:1 and 1:4 solutions are both buffers. Their pH values should not change significantly on the addition of one drop of strong acid or base.