How does a decomposition reaction work?
Antoine Lavoisier is widely known as the “father of modern chemistry”. He was one of the first to study chemical reactions in detail. Lavoisier reacted mercury with oxygen to form mercuric oxide as part of his studies on the composition of the atmosphere. He was then able to show that the decomposition of mercuric oxide produced mercury and oxygen. The diagram above shows the apparatus used by Lavoisier to study the formation and decomposition of mercuric oxide.
A decomposition reaction is a reaction in which a compound breaks down into two or more simpler substances. The general form of a decomposition reaction is:
Binary compounds are compounds composed of just two elements. The simplest kind of decomposition reaction is when a binary compound decomposes into its elements. Mercury(II) oxide, a red solid, decomposes when heated to produce mercury and oxygen gas.
A reaction is also considered to be a decomposition reaction even when one or more of the products are still compounds. A metal carbonate decomposes into a metal oxide and carbon dioxide gas. For example, calcium carbonate decomposes into calcium oxide and carbon dioxide.
Metal hydroxides decompose on heating to yield metal oxides and water. Sodium hydroxide decomposes to produce sodium oxide and water.
Sample Problem: Decomposition Reactions
Step 1: Plan the problem
Water is a binary compound composed of hydrogen and oxygen. The hydrogen and oxygen gases produced in the reaction are both diatomic molecules.
Step 2: Solve
The skeleton (unbalanced) equation:
Note the abbreviation “elec” above the arrow to indicate the passage of an electric current to initiate the reaction. Balance the equation.
Step 3: Think about your result
The products are elements and the equation is balanced.
- A definition of decomposition reaction and example reactions are given.
Write the reactions (including names and balanced equations) as requested on the following web site:
- What is a decomposition reaction?
- What is usually needed for a decomposition reaction to take place?
- Are elements always the product of a decomposition reaction?