I bet it is more difficult to adjust a pH-meter than to use the
Henderson-Hasselbalch equation
and still get the expected pH with a pretty good accuracy especially if
your work near the pKa.
There are actually two ways to prepare this 25 mM buffer, pH 4.5.
The pKa of acetate is 4.76 at 25 °C (with dpKa/° C = +0.0002, so don't
worry too much about this).
Reference is "Buffers for pH and Metal Ion Control", Perrin & Dempsey,
Chapman & Hall, NY, ISBN 0 412 21890 9.
High-grade glacial acetic acid (99-100%) is 18 N.
Make a stock solution of 250 mM (eg 3.472 mL for 1.0 L final). Keep is a
dark, tightly closed bottle.
Make a stock solution of 250 mM sodium acetate (if you use FW, not MW,
to calculate mass to use, then no worry about anhydrous or not since
water is also taken into account if present)
or
make a stock solution of 5N NaOH. Keep is a dark, tightly closed bottle.
Use then the Henderson-Hasselbalch equation (HH), pH = pKa + log
([A-]/[AH]).
In the first case, you write it : 4.5 = 4.76 + log ([sodium
acetate]/[acetic acid])
Second equation is [sodium acetate] + [acetic acid] = 25 mM
which gives [sodium acetate] = 8.886 mM and [acetic acid] = 16.134 mM.
For 1.0 L buffer, mix adequate volumes of stock solutions of sodium
acetate and acetic acid and complete with water (add acid after un first
fill with water to ~ 800 mL).
In the second case, the HH is written 4.5 = 4.76 + log([NaOH])/(25 -
[NaOH]),
which gives [NaOH] = 8.886 mM (same result as above for sodium acetate
which was then the base).
The added advantage of using HH and stock solutions is that even if your
pH is not exactly 4.5, say 4.55, if you make a new buffer the next day
or even the next month,
your buffer will have the same pH value. I don't expect you can ever
achieve such a repeatability using a pH-meter.
HTH,
Nadir Mrabet
--
Pr. Nadir T. Mrabet
Cellular & Molecular Biochemistry
INSERM U-724
Nancy University, School of Medicine
9, Avenue de la Foret de Haye, BP 184
54505 Vandoeuvre-les-Nancy Cedex
France
Phone: +33 (0)3.83.68.32.73
Fax: +33 (0)3.83.68.32.79
E-mail: [log in to unmask]
William G. Scott wrote:
> So what, then, will be the concentration of the acetate ion in your
> stock solution when you have finished?
>
> (Disclaimer: I get to teach this stuff periodically in remedial
> chemistry as a punishment for deployment of excessive sarcasm during
> faculty meetings.)
>
> On Jul 22, 2008, at 6:10 AM, Santosh wrote:
>
>> Hi,
>> Make a 1M Na-Acetate do not make up to the 1 Ltr volume. Leave some
>> extra
>> volume and now start adding Acetic acid till you get pH 4.5 (Glacial
>> Acetic
>> Acid).
>> Now make up the volume to 1ltr or how much ever you are deciding to
>> make the
>> 50X stock solution.
>> Best,
>> Santosh
>>
>> On Mon, Jul 21, 2008 at 11:20 PM, William G. Scott <
>> [log in to unmask]> wrote:
>>
>>> This is a job for the trusty Henderson-Hasselbalch equation:
>>>
>>> http://en.wikipedia.org/wiki/Henderson-Hasselbalch_equation
>>>
>>>
>>>
>>> On Jul 21, 2008, at 8:12 PM, Meg wrote:
>>>
>>> Dear All,
>>>>
>>>> I want to prepare 25 mM sodium acetate buffer pH 4.5. can anyone
>>>> give the
>>>> exact composition of how to prepare it. we prepare it using sodium
>>>> acetate
>>>> and acetic acid combination. i am not able to arrive at the
>>>> calculatation
>>>> correctly, so if anyone can explain me with the above buffer how to
>>>> calculate. and what sodium acetate [Anhydrous / trihydrate] and acetic
>>>> acid
>>>> [glacial/ plain] to use.
>>>>
>>>> thanks n regards
>>>>
>>>> Meg goyal,
>>>> M.SC Biotechnology [Research]
>>>> Institute of science,
>>>> Fort
>>>> Mumbai, INDIA
>>>>
>>>
>
>
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