Problem #20: Stoichiometry [Solved]

1. There is a chapter or area in Chemistry called “Stoichiometry”. Explain what it is about.

2. A gas cylinder contains 1,000 g of methane gas.

   a. Write a balanced chemical equation for the combustion of methane, knowing that methane burns in oxygen to give carbon dioxide and water.

   b. How many grams and moles of oxygen do you need to completely burn that quantity of methane?

   c. How many grams and moles of carbon dioxide will be produced?

   d. How many grams and moles of water will be produced?

Solution:

1. Stoichiometry is a branch of Chemistry that deals with the calculation of the relative proportions or relative quantities in which elements form compounds or in which substances react in a given chemical reaction. Stoichiometry is important, not only in theoretical study of Chemistry, but also in experimental and chemical industrial production.

Attention: Any stoichiometric calculation must start by establishing a “balanced equation of the chemical reaction”, otherwise the calculation is doomed to fail.

2. Let’s consider the chemical reaction:
   CH₄(g) + 2O₂(g) → CO₂(g) + 2H₂O(g)
   1 mole CH₄ + 2 moles O₂ → 1 mole CO₂ + 2 moles H₂O

a. Calculation of the quantity of oxygen needed:

According to the chemical equation, 1 mole of CH₄ reacts with 2 moles of O₂, in other words 16 g of CH₄ reacts with 64 g of O₂.
Then 1,000 g (62.5 moles) of CH₄ will react with: (64 x 1000)/16 = 4,000 g of O₂ (125 moles of O₂)

b. Calculation of the quantity of CO2 produced:

According to the chemical equation, 1 mole of CH₄ produces 1 mole of CO₂, or 16 g of CH₄ produce 44 g of CO₂
Then 1,000 g (62.5 moles) of CH₄ will produce: (44 x 1,000)/16 = 2,750 g of CO₂ (62.5 moles of CO2).

c. Calculation of the quantity of H₂O produced:

According to the chemical equation, 1 mole of CH₄ produces 2 moles of H2O, or 16 g of CH₄ produce 36 g of H₂O
Then 1,000 g (62.5 moles) of CH₄ will produce: (36 x 1,000)/16 = 2,250 g of H₂O (125 moles of H₂O).

d. Checking if the law of mass conservation is fulfilled:

• Reactants: 1,000 g + 4,000 g = 5,000 g
• Products: 2,750 g + 2,250 g = 5,000 g

The law is fulfilled.

The role and importance of Stoichiometry in Chemistry

Stoichiometry is very important and fundamental:

1. In the study of chemistry: it is through stoichiometric calculations that problems related to quantities of reactants and products can be solved. It is also the stoichiometry of the reactions that allows to prepare and set up different experiments.
2. In industrial chemistry: stoichiometric calculations are important in industrial production processes such as, determination of the quantities of reactants involved in a process, and determination of the quantities of products expected.