Open and Toroidal Electrophoresis. Tarso B. Ledur Kist. Читать онлайн. Newlib. NEWLIB.NET

Автор: Tarso B. Ledur Kist
Издательство: John Wiley & Sons Limited
Серия:
Жанр произведения: Химия
Год издания: 0
isbn: 9781119539247
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      images is defined as the derivative of the amount of equivalents (of a strong acid or base) to the pH. The unit of images is the amount of equivalents that must be added to one liter of a buffer solution in order to change pH by one unit. Buffer solutions with high buffer capacities are always desired. In the laboratory images is measured by titration and observing the amount of equivalents (images) of a strong base (or acid) that must be added to one liter of a buffer solution with an initial pH of images, in order to increase (or decrease) its pH from images to images. This permits the definition of images (depending on the sensitivity and precision of the pH-meter used). At this point the titration is paused and the buffer capacity of the solution at images is calculated as follows: images. Following this the titration is continued until the pH is changed by another increment of images. images is then calculated as images, and so on. Plotting the images values of a buffer against pH gives nothing more than a density probability distribution.

Grid chart depicting the buffer capacity of 0.1 M acetic acid (pKa = 4.75) in an aqueous solution in the 1 to 13 pH range.
) in an aqueous solution in the 1 to 13 pH range.

      For practical applications, buffer capacity can be predicted using equation 1.19 (a) and the definition of acid ionization constant (equation 1.15). The result is the following equation:

      (1.20)equation

      where images (at 25 imagesC), images, and images is the initial activity of the weak acid used to prepare the buffer solution. For instance, if 0.1 mol of acetic acid is used to prepare one liter then images if images. The same equation can be applied to a weak base (B), however in this case images represents the initial activity of the weak base used.

      (1.21)equation

Grid chart depicting the buffer capacity of 0.1 M Tris (pKa = 8.07) in an aqueous solution.
) in an aqueous solution.

Grid chart depicting the buffer capacity of 0.1 M β-alanine (pKa = 3.63 and 9.6) in an aqueous solution. The buffer capacity at the isoelectric point (pH(I) = 6.6) is low.
-alanine (p
and 9.6) in an aqueous solution. The buffer capacity at the isoelectric point (images) is low.