Hello, I know what amphoteric oxides are, but what factor determines whether an oxide is amphoteric?

1 Answer
Dec 22, 2017

Warning! Long Answer. Here's my explanation.

Explanation:

Basic oxides

Metallic character increases from right to left and from top to bottom in the Periodic Table.

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The most metallic elements form the most basic oxides.

Even if the oxides are insoluble in water, we still call them basic oxides because they react with acids.

#"MgO(s) + 2HCl(aq) → MgCl"_2"(aq)" + "H"_2"O"(l)"#

Acidic oxides

Nonmetallic character increases from left to right and from bottom to top in the Periodic Table.

The most nonmetallic elements form the most acidic oxides.

They react with water to form oxoacids. For example,

#"SO"_2"(aq)" + "H"_2"O(l)" → "H"_2"SO"_3"(aq)"#

Even if an oxide is insoluble on water, we still class it as acidic if it reacts with bases to form salts. For example,

#"TeO"_2"(s)" + "2NaOH(aq)" → "Na"_2"TeO"_3"(aq)" + "H"_2"O(l)"#

Amphoteric Oxides

Some oxides react with both acids and bases, that is, they are amphoteric.

For example, #"Al"_2"O"_3# is an amphoteric oxide.

#"Al"_2"O"_3"(s)" + "6H"_3"O"^"+""(aq)" + "3H"_2"O(l)" → 2"Al"("OH"_2)_6^"3+""(aq)"#
#"Al"_2"O"_3"(s)" + 2"OH"^"-""(aq)" + "3H"_2"O(l)" → 2"Al"("OH")_4^"-""(aq)"#

The lighter elements of Groups 2 and 13, some of the #"d"#-block elements, and the heavier elements of Groups 14 and 15 have amphoteric oxides.

The most basic oxides are at the lower left of the Periodic Table and the most acidic oxides are at the upper right, so it is not surprising that the borderline between acidic and basic oxides occurs along a diagonal.

Oxides

Amphoterism and oxidation states

Amphoterism depends on the oxidation state of the oxide.

There is no simple way to predict which elements will be amphoteric.

The amphoteric character of an oxide probably reflects the ability of the metal to polarize the surrounding oxide ions, that is, to introduce significant covalent character into the #"M-O"# bond.

This ability increases with oxidation state as the positive character of the central atom increases.

However, in Group 15, only the oxides with lower oxidation states are amphoteric.

The oxides with higher oxidation states are too acidic to be amphoteric.