94 CHAPTER 3: Chemical Equations and Reaction Stoichiometry
EXAMPLE 3-3 Mass of a Reactant Required
What mass of oxygen is required to react completely with 1.20 mol of CH 4?
Plan
The balanced equationCH 4 2O 2 88nCO 2 2H 2 O
1 mol 2 mol 1 mol 2 mol
16.0 g 2(32.0 g) 44.0 g 2(18.0 g)gives the relationships among moles and grams of reactants and products.mol CH 4 88n mol O 2 88n g O 2Solution__?g O 2 1.20 mol CH 4 76.8 g O 2EXAMPLE 3-4 Mass of a Reactant Required
What mass of oxygen is required to react completely with 24.0 g of CH 4?
Plan
Recall the balanced equation in Example 3-3.CH 4 2O 2 88nCO 2 2H 2 O
1 mol 2 mol 1 mol 2 mol
16.0 g 2(32.0) g 44.0 g 2(18.0) g32.0 g O 2
1 mol O 22 mol O 2
1 mol CH 4Problem-Solving Tip:Use the Mole Ratio in Calculations with
Balanced Chemical EquationsThe most important way of interpretating the balanced chemical equation is in terms of
moles. We use the coefficients to get the mole ratio of any two substances we want to
relate. Then we apply it asmoles of moles of mole ratio
desired substance from balanced
substance given chemical equationIt is important to include the substance formulas as part of the units; this can help
us decide how to set up the unit factors. Notice that in Example 3-2, we want to cancel
the term mol CH 4 , so we know that mol CH 4 must be in the denominator of the mole
ratio by which we multiply; we want mol O 2 as the answer, so mol O 2 must appearin the numerator of the mole ratio. In other words, do not just write m
mo
ol
l; write, giving the formulas of the two substances involved.mol of something
mol of something else