3.04 Molar Mass

Try It

Let's practice finding the molar mass of some compounds. Perform the calculation and check your answers. Remember to round to the nearest hundredth.

1. What is the molar mass of LiCl?

   Answer: 42.39g

   Here is how to solve for the molar mass of LiCl:

   Li 1 x 6.94 = 6.94g

   Cl 1 x 35.45 = 35.45g

   6.94g + 35.45g = 42.39g

   The molar mass of LiCl is 42.39g.

    

2. What is the molar mass of K₂SO₄?

   Answer: 174.28g

   Here is how to solve for the molar mass of K₂SO₄:

   K 2 x 39.09 = 78.18g

   S 1 x 32.1 = 32.1g

   O 4 x 16.0 = 64.0g

   78.18 + 32.1 + 64.0 = 174.28g

   The molar mass of K₂SO₄ is 174.28g.

    

Now let's use what we know about molar mass to find the mass of the reactants or products of a chemical equation. Perform the calculation and enter your answer in the box.

3. What is the molar mass of the products in the following balanced equation:
   CH₄ → C + 2H₂

   Answer: 16.0g

   Here is how to solve for the molar mass of the products in the following balanced equation:

   CH₄ → C + 2H₂

   C 1 x 12.0 = 12.0g

   H 2 x 1.0 = 2.0g

   There are 2 H₂ so 2.0g x 2 = 4.0g total

   12.0 + 4.0 = 16.0g of products

   The molar mass of the above balanced equation is 16.0g.

    

4. If the mass of the products is 16.0g, what should the mass of the reactants be? For the same equation: CH₄ → C + 2H₂

   Answer: 16.0g

   The mass of the reactants should be the exact same as the mass of the products because mass is conserved in a chemical reaction.