![]() ![]() The pK is the pH at the midpoint of the buffering region (where the pH changes only slightly upon addition of either acid or base). The pKa also equals the pH at which the ionizable group is at its best buffering capacity that is the pH at which the solution resists changes in pH most effectively. Hence, pKa can be defined as the pH at which the concentrations of the protonated and unprotonated forms of a particular ionizable species are equal. When the concentration of the unprotonated form equals that of the unprotonated form, the ratio of their concentrations equals 1, and log 1=0. These ionizations follow the Henderson-Hasselbalch equation: When this dissolved amino acid is titrated with acid, it acts as a base, and with base, it acts as an acid which makes them an amphoteric molecule. In other words, the positively charged groups are exactly balanced by the negatively charged groups. The isoelectric point, pI, is the pH of an aqueous solution of an amino acid at which the molecules have no net charge. When an amino acid is dissolved in water it exists predominantly in the isoelectric form. Some amino acids have other ionizable groups in their side chains and these can also be titrated. The strong positive charge on the amino group induces a tendency for the carboxylic acid group to lose a proton, so amino acids are considered to be strong acids. All of the amino acids have an acidic group (COOH) and a basic group (NH 2) attached to the α carbon, and also they contain ionizable groups that act as weak acids or bases, giving off or taking on protons when the pH is altered. They are present as zwitter ions at neutral pH and are amphoteric molecules that can be titrated with both acid and alkali. The precise number of each characteristic depends on the nature of the acid being titrated:ġ) the number of ionizing groups, 2) the pKa of the ionizing group(s), 3) the buffer region(s).Īmino Acids are weak Polyprotic Acids. This curve empirically defines several characteristics. The curves are usually plots of pH against the volume of titrant added or more correctly against the number of equivalents added per mole of the sample. Titration curves are obtained when the pH of given volume of a sample solution varies after successive addition of acid or alkali. To understand the acid base behaviour of an amino acid.To use this curve to estimate the pKa values of the ionizable groups of the amino acid.To determine the titration curve for an amino acid. ![]()
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