Page 10 - E-LKM Asam Basa_Neat
P. 10
The Effect of subsituens on
the strength of acid and base
The acidity of this acid is due to the
presence one acidic hydrogen bonds to
oxygen atom. In aqueous solution this
acidic hydrogen may be released as
+
hydrogen ion (H ).
Three hydrogen atoms bond to
carbon atom are non-acidic
hydrogens. They can not be released as
hydrogen ions. These hydrogen atoms
can be replaced with electron
withdrawing substituents such as
halogen (F, Cl, Br, or I), Halogen behaves
as electron withdrawing substituent
because it is more electronegative than
hydrogen. Halogen substituent will
decreases electron cloud or electron density of O-H bond. This
may weaken and lengthen the O-H bond. Because of this the
acidic hydrogen atom is easier to release and the streng of acid
increases, Replacement one non-acidic hydrogenat with chlorine
atom gives chloroacetic acid as shown in figure 1.6.
Further replacement of non-acidic hydrogen atoms w chlorine
increases the strength of acid formed. For e the strength of
CCI COOH>CHCl COOH>CH CICOOH >CH COOH. Replacement of
3
2
2
3
non-acidic hydrogen atom with fluorine atom also gives acid
stronger than the acetic acid. Since electronegativity of fluorine is
higher than that of chlorine fluorine substituted acetic acid is
stronger than chlori substituted acetic acid. For example
trifluoroacetic acid (CF COOH) is stronger than trichloroacetic acid
3
(CCI COOH).
3
+
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