<p><strong>Stoichiometry of Non-Limiting Reagents </strong></p><p>1. In&nbsp;the thermite reaction, molten iron is produced from iron (III) oxide and aluminum metal according to the following UNBALANCED chemical equation: </p><p>Al (s) + Fe<sub style="top: 0.13em;">2</sub>O<sub style="top: 0.13em;">3 </sub>(s) → Al<sub style="top: 0.13em;">2</sub>O<sub style="top: 0.13em;">3 </sub>(s) + Fe (l) a. Balance&nbsp;the equation. b. Calculate&nbsp;the number of grams of aluminum and iron (III) oxide required to produce 1 kilogram of molten iron. </p><p>c. How&nbsp;many grams of aluminum oxide would also be produced in this reaction? </p><p>2. In&nbsp;dilute nitric acid, HNO<sub style="top: 0.1325em;">3</sub>, copper metal dissolves according to the following balanced chemical equation: </p><p>Cu (s) +&nbsp;HNO<sub style="top: 0.13em;">3 </sub>(aq) → Cu(NO<sub style="top: 0.13em;">3</sub>)<sub style="top: 0.13em;">2 </sub>(aq) +&nbsp;NO (g) +&nbsp;H<sub style="top: 0.13em;">2</sub>O (l) a. Balance&nbsp;the equation. b. How&nbsp;many grams of HNO<sub style="top: 0.13em;">3 </sub>are needed to dissolve 11.45 grams of copper metal? c. How&nbsp;many liters of nitrogen monoxide gas would be produced in this reaction? </p><p>3. Gaseous&nbsp;sulfur dioxide can be removed from smokestacks by treatment with limestone (CaCO<sub style="top: 0.13em;">3</sub>) and oxygen. The products in the reaction are calcium sulfate and carbon dioxide. </p><p>a. Write&nbsp;a balanced equation for this reaction. b. What&nbsp;mass of calcium carbonate is required to remove 150 grams of sulfur dioxide? c. What&nbsp;mass of calcium sulfate is formed when 150 grams of sulfur dioxide is consumed completely? </p><p>4. Careful&nbsp;decomposition of ammonium nitrate produces laughing gas (N<sub style="top: 0.13em;">2</sub>O) and water. write a balanced equation for this reaction </p><p>a. What&nbsp;masses of water can be obtained from the decomposition of 10.0 g of NH<sub style="top: 0.13em;">4</sub>NO<sub style="top: 0.13em;">3</sub>? b. How&nbsp;many liters of N<sub style="top: 0.13em;">2</sub>O is formed? </p><p><strong>Stoichiometry of Limiting Reagents </strong></p><p>1. Hydrazine (N<sub style="top: 0.13em;">2</sub>H<sub style="top: 0.13em;">4</sub>) reacts with dinitrogen tetraoxide to form nitrogen gas and water vapor. a. Write&nbsp;the balanced equation for the reaction b. Starting&nbsp;with 100 g of hydrazine and 200 g of dinitrogen tetraoxide, determine the limiting reactant. c. What&nbsp;is the theoretical yield of nitrogen gas? Of water vapor? d. What&nbsp;mass of the excess reactant remains when the limiting reactant is consumed? </p><p>2. In&nbsp;the combustion reaction of ammonia, gaseous water and nitrogen monoxide are formed. <br>NH<sub style="top: 0.13em;">3 </sub>+ O<sub style="top: 0.13em;">2 </sub>→ H<sub style="top: 0.13em;">2</sub>O + NO a. Balance&nbsp;the equation. b. If&nbsp;20 g of NH<sub style="top: 0.13em;">3 </sub>are burned in 30 g of O<sub style="top: 0.13em;">2</sub>, how many grams of NO are formed? c. How&nbsp;many liters of total gas is formed? </p><p>3. In&nbsp;a single replacement reaction, aluminum metal reacts with hydrochloric acid to form aluminum chloride and hydrogen gas. </p><p>Al + HCl → AlCl<sub style="top: 0.13em;">3 </sub>+ H<sub style="top: 0.13em;">2 </sub>a. Balance&nbsp;the equation. b. If&nbsp;25 g of aluminum was added to 90 g of HCl, what mass of H<sub style="top: 0.13em;">2</sub>will be produced? </p><p>4. In&nbsp;the Haber process, ammonia is formed in the composition reaction of hydrogen and nitrogen gas. <br>N<sub style="top: 0.13em;">2 </sub>+ H<sub style="top: 0.13em;">2 </sub>→ NH<sub style="top: 0.13em;">3 </sub>a. Balance&nbsp;the equation. b. If&nbsp;you have 20 g of N<sub style="top: 0.13em;">2 </sub>and 5.0 g of H<sub style="top: 0.13em;">2</sub>, which is the limiting reagent? c. How&nbsp;many grams of ammonia can be formed by this reaction? </p><p>5. Aluminum&nbsp;oxide is formed from the combustion of aluminum. a. Write&nbsp;and balance the reaction. b. What&nbsp;mass of aluminum oxide is formed when 10.0 g of Al is burned in 20.0 g of O<sub style="top: 0.13em;">2</sub>? </p><p>6. When&nbsp;C<sub style="top: 0.13em;">3</sub>H<sub style="top: 0.13em;">8 </sub>burns in oxygen, CO<sub style="top: 0.13em;">2 </sub>and H<sub style="top: 0.13em;">2</sub>O are produced. a. Write&nbsp;the balanced reaction. b. If&nbsp;15.0 g of C<sub style="top: 0.13em;">3</sub>H<sub style="top: 0.13em;">8 </sub>reacts with 60.0 g of O<sub style="top: 0.13em;">2</sub>, how many liters of CO<sub style="top: 0.13em;">2 </sub>are formed? </p><p><strong>Percent Yield Problems </strong></p><p>1. What&nbsp;is the % yield of NH<sub style="top: 0.13em;">3 </sub>if 40.5 g NH<sub style="top: 0.13em;">3 </sub>is produced from 20.0 mol H<sub style="top: 0.13em;">2 </sub>and excess N<sub style="top: 0.13em;">2</sub>? 2. The&nbsp;electrolysis of water forms H<sub style="top: 0.13em;">2</sub>and O<sub style="top: 0.13em;">2</sub>. 12.3 g of O<sub style="top: 0.13em;">2 </sub>is produced from the decomposition of 14.0 g H<sub style="top: 0.13em;">2</sub>O. </p><p>a. Write&nbsp;and balance the reaction. b. What&nbsp;is the theoretical yield of O<sub style="top: 0.13em;">2</sub>? c. What&nbsp;is the percent yield? 3. Potassium&nbsp;chlorate decomposes upon heating to produce potassium chloride and oxygen gas. 2.107 g of oxygen is produced in the heating of 300 g of KClO<sub style="top: 0.1325em;">3</sub>. </p><p>a. Write&nbsp;and balance the reaction. b. Calculate&nbsp;the theoretical yield. c. Calculate&nbsp;the percent yield. </p><p>4. Methanol,&nbsp;CH<sub style="top: 0.13em;">3</sub>OH, is a clean-burning, easily handled fuel. It can be made by the direct reaction of CO and H<sub style="top: 0.13em;">2 </sub>as follows: </p><p>CO (g) + H<sub style="top: 0.13em;">2 </sub>(g) → CH<sub style="top: 0.13em;">3</sub>OH (l) a. Balance&nbsp;the reaction. b. Starting&nbsp;with a mixture of 12.0 g of H<sub style="top: 0.13em;">2 </sub>and 74.5 g of CO, which is the limiting reactant? c. What&nbsp;mass of the excess reactant remains after the reaction is complete? d. What&nbsp;is the <em>theoretical yield </em>of methanol? e. If&nbsp;78.5 grams of methanol are collected at the end of the experiment, what is the <em>percent yield</em>? </p><p>5. Water is formed in the combustion of hydrogen gas. 60 g of oxygen and 7.0 g of hydrogen are burned, producing 58 g of water. </p><p>a. Write&nbsp;and balance the reaction. b. What&nbsp;is the theoretical yield? c. What&nbsp;is the percent yield? </p><p>6. Iron pyrites (FeS<sub style="top: 0.13em;">2</sub>) reacts with oxygen according to the following equation: <br>FeS<sub style="top: 0.13em;">2 </sub>+ O<sub style="top: 0.13em;">2 </sub>→ Fe<sub style="top: 0.13em;">2</sub>O<sub style="top: 0.13em;">3 </sub>+ SO<sub style="top: 0.13em;">2 </sub><br>300 g of iron pyrites is burned in 200 g of O<sub style="top: 0.13em;">2</sub>, and 143 grams of ferric oxide is produced. a. Balance&nbsp;the reaction. b. Calculate&nbsp;the theoretical yield of iron (III) oxide. c. Calculate&nbsp;the percent yield. </p>