Glycine has pKa values of 2.34 and 9.60. Therefore, glycine will exist predominately as a zwitterion in an aqueous solution with the following pH.
A. pH = 2.34 and pH = 9.60
B. pH > 2.34 and pH < 9.60
C. pH < 2.34 and pH > 9.60
D. pH = 2.34 and pH > 9.60

It means, for glycine, the two functional groups e.g. [tex]-NH_{2}[/tex] and -COOH should bear equal and opposite charges in it's zwitterionic structure.

[tex]pK_{a}[/tex] of -COOH (in glycine) = 2.34

Therefore, at a pH > 2.34, -COOH group of glycine exists predominantly as [tex]-COO^{-}[/tex].

[tex]pK_{a}[/tex] of [tex]-NH_{2}[/tex] (in glycine) = 9.60

Therefore, at a pH < 9.60, [tex]-NH_{2}[/tex] group of glycine exists predominantly as [tex]-NH_{3}^{+}[/tex].

Hence we can say that at 2.34 < pH < 9.60, glycine exists predominantly in zwitterionic form due to presence of [tex]-COO^{-}[/tex] and [tex]-NH_{3}^{+}[/tex] in equal amount.

Glycine has pKa values of 2.34 and 9.60. Therefore, glycine will exist predominately as a zwitterion in an aqueous solution with the following pH. A. pH = 2.34 and pH = 9.60 B. pH > 2.34 and pH < 9.60 C. pH < 2.34 and pH > 9.60 D. pH = 2.34 and pH > 9.60

Respuesta :

Otras preguntas

Glycine has pKa values of 2.34 and 9.60. Therefore, glycine will exist predominately as a zwitterion in an aqueous solution with the following pH.
A. pH = 2.34 and pH = 9.60
B. pH > 2.34 and pH < 9.60
C. pH < 2.34 and pH > 9.60
D. pH = 2.34 and pH > 9.60