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Question: Calculate the mass of copper required to produce \({\text{159 g}}\) of copper (II) oxide when heated...

Calculate the mass of copper required to produce 159 g{\text{159 g}} of copper (II) oxide when heated in excess oxygen.

Explanation

Solution

Copper is heated in excess oxygen to form copper (II) oxide. Write a correct balanced chemical equation for the reaction. The chemical formula for copper (II) oxide is CuO{\text{CuO}}. The oxidation state of copper is  + 2{\text{ + 2}}.

Complete answer:

Write the balanced chemical equation for the reaction as follows:
Copper reacts with oxygen to form copper (II) oxide.

The reaction is,
2Cu + O2  2CuO{\text{2Cu + }}{{\text{O}}_2}{\text{ }} \to {\text{ 2CuO}}
Use the reaction for further stoichiometric calculations.
-Calculate the number of moles of copper (II) oxide in 159 g{\text{159 g}} of copper (II) oxide using the equation as follows:
Number of moles of CuO=Mass of CuOMolar mass of CuO{\text{Number of moles of CuO}} = \dfrac{{{\text{Mass of CuO}}}}{{{\text{Molar mass of CuO}}}}
Substitute 159 g{\text{159 g}} for the mass of copper (II) oxide, 79.5 g mol1{\text{79}}{\text{.5 g mo}}{{\text{l}}^{ - 1}} for the molar mass of copper (II) oxide. Thus,
Number of moles of CuO=159 g79.5 g mol1{\text{Number of moles of CuO}} = \dfrac{{{\text{159 g}}}}{{{\text{79}}{\text{.5 g mo}}{{\text{l}}^{ - 1}}}}
Number of moles of CuO=2 mol\Rightarrow {\text{Number of moles of CuO}} = {\text{2 mol}}
Thus, the number of moles of copper (II) oxide in 159 g{\text{159 g}} of copper (II) oxide are 2 mol{\text{2 mol}}.
Calculate the number of moles of copper required to produce 2 mol{\text{2 mol}} of copper (II) oxide as follows:
From the reaction stoichiometry,
2 mol{\text{2 mol}} copper is required to produce 2 mol{\text{2 mol}} copper (II) oxide.
Calculate the mass of copper required to produce 159 g{\text{159 g}} of copper (II) oxide as follows:
1 mol{\text{1 mol}} copper contains 63.5 g{\text{63}}{\text{.5 g}} of copper (molar mass of copper). Thus,
Mass of copper=2 mol×63.5 g1 mol{\text{Mass of copper}} = 2{\text{ mol}} \times \dfrac{{{\text{63}}{\text{.5 g}}}}{{{\text{1 mol}}}}
Mass of copper=127 g\Rightarrow {\text{Mass of copper}} = {\text{127 g}}

Thus, the mass of copper required to produce 159 g{\text{159 g}} of copper (II) oxide is 127 g{\text{127 g}}.

Note: The most important step is to write the correct balanced chemical equation, if the balanced chemical equation is not correct, the reaction stoichiometry changes and the final answer changes.