What is the simplest formula for copper (II) nitride

What is the simplest formula for copper (II) nitride

The Correct Answer and Explanation is:

The simplest formula for copper (II) nitride is Cu₃N₂.

Explanation:

To understand how we arrive at the formula Cu₃N₂ for copper (II) nitride, we need to consider the oxidation states of copper and nitrogen, and how they combine to form a neutral compound.

1. Oxidation State of Copper:
   Copper (II) nitride contains copper in the +2 oxidation state. This means each copper (Cu) atom has lost two electrons, resulting in a charge of +2. This is denoted as Cu²⁺.
2. Oxidation State of Nitrogen:
   Nitrogen typically forms nitride (N³⁻) in ionic compounds. In nitride, nitrogen has an oxidation state of -3.
3. Balancing Charges:
   In an ionic compound, the total positive charge must balance the total negative charge to make the compound neutral. Therefore, we need to determine the ratio of copper (Cu²⁺) ions to nitride (N³⁻) ions.

• Each Cu²⁺ ion has a charge of +2.
• Each N³⁻ ion has a charge of -3. To balance these charges, we need multiples of copper and nitrogen such that their total charges equal zero.
• Let’s say we have 3 copper ions (each with a +2 charge) and 2 nitrogen ions (each with a -3 charge):
  • 3 copper ions × (+2 charge) = +6
  • 2 nitrogen ions × (-3 charge) = -6
  The total positive charge is +6, and the total negative charge is -6. Since +6 and -6 balance each other out, the compound is electrically neutral.

1. Final Formula:
   The simplest formula, reflecting this charge balance, is Cu₃N₂, meaning 3 copper ions for every 2 nitrogen ions.

Thus, the simplest formula for copper (II) nitride is Cu₃N₂, which adheres to the charge balance rule for ionic compounds.