Chapter 4 Stoichiometry of Chemical Reactions

Chapter 4 Problems

4.1  Writing and Balancing Chemical Equations

4.1.  What does it mean to say an equation is balanced? Why is it important for an equation to be balanced?

 

4.2.  Consider molecular, complete ionic, and net ionic equations.

(a)  What is the difference between these types of equations?

(b)  In what circumstance would the complete and net ionic equations for a reaction be identical?

 

4.3.  Balance the following equations:

(a)  PCl5(s) + H2O(l) → POCl3(l) + HCl(aq)

(b)  Cu(s) + HNO3(aq) → Cu(NO3)2(aq) + H2O(l) + NO(g)

(c)  H2(g) + I2(s) → HI(s)

(d)  Fe(s) + O2(g) → Fe2O3(s)

(e)  Na(s) + H2O(l) → NaOH(aq) + H2(g)

(f)  (NH4)2Cr2O7(s) → Cr2O3(s) + N2(g) + H2O(g)

(g)  P4(s) + Cl2(g) → PCl3(l)

(h)  PtCl4(s) → Pt(s) + Cl2(g)

 

4.4.  Balance the following equations:

(a)  Ag(s) + H2S(g) + O2(g) → Ag2S(s) + H2O(l)

(b)  P4(s) + O2(g) → P4O10(s)

(c)  Pb(s) + H2O(l) + O2(g) → Pb(OH)2(s)

(d)  Fe(s) + H2O(l) → Fe3O4(s) + H2(g)

(e)  Sc2O3(s) + SO3(l) → Sc2(SO4)3(s)

(f)  Ca3(PO4)2(aq) + H3PO4(aq) → Ca(H2PO4)2(aq)

(g)  Al(s) + H2SO4(aq) → Al2(SO4)3(s) + H2(g)

(h)  TiCl4(s) + H2O(g) → TiO2(s) + HCl(g)

 

4.5.  Write a balanced molecular equation describing each of the following chemical reactions.

(a)  Solid calcium carbonate is heated and decomposes to solid calcium oxide and carbon dioxide gas.

(b)  Gaseous butane, C4H10, reacts with diatomic oxygen gas to yield gaseous carbon dioxide and water vapor.

(c)  Aqueous solutions of magnesium chloride and sodium hydroxide react to produce solid magnesium hydroxide and aqueous sodium chloride.

(d)  Water vapor reacts with sodium metal to produce solid sodium hydroxide and hydrogen gas.

 

4.6.  Write a balanced equation describing each of the following chemical reactions.

(a)  Solid potassium chlorate, KClO3, decomposes to form solid potassium chloride and diatomic oxygen gas.

(b)  Solid aluminum metal reacts with solid diatomic iodine to form solid Al2I6.

(c)  When solid sodium chloride is added to aqueous sulfuric acid, hydrogen chloride gas and aqueous sodium sulfate are produced.

(d)  Aqueous solutions of phosphoric acid and potassium hydroxide react to produce aqueous potassium dihydrogen phosphate and liquid water.

 

4.7.  Colorful fireworks often involve the decomposition of barium nitrate and potassium chlorate and the reaction of the metals magnesium, aluminum, and iron with oxygen.

(a)  Write the formulas of barium nitrate and potassium chlorate.

(b)  The decomposition of solid potassium chlorate leads to the formation of solid potassium chloride and diatomic oxygen gas. Write an equation for the reaction.

(c)  The decomposition of solid barium nitrate leads to the formation of solid barium oxide, diatomic nitrogen gas, and diatomic oxygen gas. Write an equation for the reaction.

(d)  Write separate equations for the reactions of the solid metals magnesium, aluminum, and iron with diatomic oxygen gas to yield the corresponding metal oxides. (Assume the iron oxide contains Fe3+ ions.)

 

4.8.  Fill in the blank with a single chemical formula for a covalent compound that will balance the equation:

image

 

4.9.  Aqueous hydrogen fluoride (hydrofluoric acid) is used to etch glass and to analyze minerals for their silicon content. Hydrogen fluoride will also react with sand (silicon dioxide).

(a)  Write an equation for the reaction of solid silicon dioxide with hydrofluoric acid to yield gaseous silicon tetrafluoride and liquid water.

(b)  The mineral fluorite (calcium fluoride) occurs extensively in Illinois. Solid calcium fluoride can also be prepared by the reaction of aqueous solutions of calcium chloride and sodium fluoride, yielding aqueous sodium chloride as the other product. Write complete and net ionic equations for this reaction.

 

4.10.  A novel process for obtaining magnesium from sea water involves several reactions. Write a balanced chemical equation for each step of the process.

(a)  The first step is the decomposition of solid calcium carbonate from seashells to form solid calcium oxide and gaseous carbon dioxide.

(b)  The second step is the formation of solid calcium hydroxide as the only product from the reaction of the solid calcium oxide with liquid water.

(c)  Solid calcium hydroxide is then added to the seawater, reacting with dissolved magnesium chloride to yield solid magnesium hydroxide and aqueous calcium chloride.

(d)  The solid magnesium hydroxide is added to a hydrochloric acid solution, producing dissolved magnesium chloride and liquid water.

(e)  Finally, the magnesium chloride is melted and electrolyzed to yield liquid magnesium metal and diatomic chlorine gas.

 

4.11.  From the balanced molecular equations, write the complete ionic and net ionic equations for the following:

(a)  K2C2O4(aq) + Ba(OH)2(aq) → 2 KOH(aq) + BaC2O4(s)

(b)  Pb(NO3)2(aq) + H2SO4(aq) → PbSO4(s) + 2 HNO3(aq)

(c)  CaCO3(s) + H2SO4(aq) → CaSO4(s) + CO2(g) + H2O(l)

 

4.2  Reaction Stoichiometry

4.12.  Write the balanced equation, then outline the steps necessary to determine the information requested in each of the following:

(a)  The number of moles and the mass of chlorine, Cl2, required to react with 10.0 g of sodium metal, Na, to produce sodium chloride, NaCl.

(b)  The number of moles and the mass of oxygen formed by the decomposition of 1.252 g of mercury(II) oxide.

(c)  The number of moles and the mass of sodium nitrate, NaNO3, required to produce 128 g of oxygen. (NaNO2 is the other product.)

(d)  The number of moles and the mass of carbon dioxide formed by the combustion of 20.0 kg of carbon in an excess of oxygen.

(e)  The number of moles and the mass of copper(II) carbonate needed to produce 1.500 kg of copper(II) oxide. (CO2 is the other product.)

(f)

image

 

4.13.  Determine the number of moles and the mass requested for each reaction in Problem 4.12.

 

4.14.  Write the balanced equation, then outline the steps necessary to determine the information requested in each of the following:

(a)  The number of moles and the mass of Mg required to react with 5.00 g of HCl and produce MgCl2 and H2.

(b)  The number of moles and the mass of oxygen formed by the decomposition of 1.252 g of silver (I) oxide.

(c)  The number of moles and the mass of magnesium carbonate, MgCO3, required to produce 283 g of carbon dioxide. (MgO is the other product.)

(d)  The number of moles and the mass of water formed by the combustion of 20.0 kg of acetylene, C2H2, in an excess of oxygen.

(e)  The number of moles and the mass of barium peroxide, BaO2, needed to produce 2.500 kg of barium oxide, BaO (O2 is the other product.)

(f)

image

 

4.15.  Determine the number of moles and the mass requested for each reaction in Problem 4.14.

 

4.16.  H2 is produced by the reaction of 118.5 mL of a 0.8775 M solution of H3PO4 according to the following equation:

2 Cr + 2 H3PO4 → 3 H2 + 2 CrPO4.

(a)  Outline the steps necessary to determine the number of moles and mass of H2.

(b)  Perform the calculations outlined.

 

4.17.  Gallium chloride is formed by the reaction of 2.6 L of a 1.44 M solution of HCl according to the following equation:

2 Ga + 6 HCl → 2 GaCl3 + 3 H2.

(a)  Outline the steps necessary to determine the number of moles and mass of gallium chloride.

(b)  Perform the calculations outlined.

 

4.18.  I2 is produced by the reaction of 0.4235 mol of CuCl2 according to the following equation:

2 CuCl2 + 4 KI → 2 CuI + 4 KCl + I2.

(a)  How many molecules of I2 are produced?

(b)  What mass of I2 is produced?

 

4.19.  Silver is often extracted from ores such as K[Ag(CN)2] and then recovered by the reaction

2 KAg(CN)2(aq) + Zn(s) → 2 Ag(s) + Zn(CN)2(aq) + 2 KCN(aq)

(a)  How many molecules of Zn(CN)2 are produced by the reaction of 35.27 g of K[Ag(CN)2]?

(b)  What mass of Zn(CN)2 is produced?

 

4.20.  What mass of silver oxide, Ag2O, is required to produce 25.0 g of silver sulfadiazine, AgC10H9N4SO2, from the reaction of silver oxide and sulfadiazine?

2 C10H10N4SO2 + Ag2O → 2 AgC10H9N4SO2 + H2O

 

4.21.  Carborundum is silicon carbide, SiC, a very hard material used as an abrasive on sandpaper and in other applications. It is prepared by the reaction of pure sand, SiO2, with carbon at high temperature. Carbon monoxide, CO, is the other product of this reaction. Write the balanced equation for the reaction, and calculate how much SiO2 is required to produce 3.00 kg of SiC.

 

4.22.  Automotive air bags inflate when a sample of sodium azide, NaN3, is very rapidly decomposed.

2 NaN3(s) → 2 Na(s) + 3 N2(g)

What mass of sodium azide is required to produce 2.6 ft3 (73.6 L) of nitrogen gas with a density of 1.25 g/L?

 

4.23.  Urea, CO(NH2)2, is manufactured on a large scale for use in producing urea-formaldehyde plastics and as a fertilizer. What is the maximum mass of urea that can be manufactured from the CO2 produced by combustion of 1.00 × 103 kg of carbon followed by the reaction?

CO2(g) + 2 NH3(g) → CO(NH2)2(s) + H2O(l)

 

4.24.  In an accident, a solution containing 2.5 kg of nitric acid was spilled. Two kilograms of Na2CO3 was quickly spread on the area and CO2 was released by the reaction. Was sufficient Na2CO3 used to neutralize all of the acid?

 

4.25.  A compact car gets 37.5 miles per gallon on the highway. If gasoline contains 84.2% carbon by mass and has a density of 0.8205 g/mL, determine the mass of carbon dioxide produced during a 500-mile trip (3.785 liters per gallon).

 

4.26.  What volume of 0.750 M hydrochloric acid solution can be prepared from the HCl produced by the reaction of 25.0 g of NaCl with excess sulfuric acid?

NaCl(s) + H2SO4(l) → HCl(g) + NaHSO4(s)

 

4.27.  What volume of a 0.2089 M KI solution contains enough KI to react exactly with the Cu(NO3)2 in 43.88 mL of a 0.3842 M solution of Cu(NO3)2?

2 Cu(NO3)2 + 4 KI → 2 CuI + I2 + 4 KNO3

 

4.28.  A mordant is a substance that combines with a dye to produce a stable fixed color in a dyed fabric. Calcium acetate is used as a mordant. It is prepared by the reaction of acetic acid with calcium hydroxide.

2 CH3CO2H + Ca(OH)2 → Ca(CH3CO2)2 + 2 H2O

What mass of Ca(OH)2 is required to react with the acetic acid in 25.0 mL of a solution having a density of 1.065 g/mL and containing 58.0% acetic acid by mass?

 

4.29.  The toxic pigment called white lead, Pb3(OH)2(CO3)2, has been replaced in white paints by rutile, TiO2. How much rutile (g) can be prepared from 379 g of an ore that contains 88.3% ilmenite (FeTiO3) by mass?

2 FeTiO3 + 4 HCl + Cl2 → 2 FeCl3 + 2 TiO2 + 2 H2O

 

4.3  Reaction Yields

4.30.  The following quantities are placed in a container: 1.5 × 1024 atoms of hydrogen, 1.0 mol of sulfur, and 88.0 g of diatomic oxygen.

(a)  What is the total mass in grams for the collection of all three elements?

(b)  What is the total number of moles of atoms for the three elements?

(c)  If the mixture of the three elements formed a compound with molecules that contain two hydrogen atoms, one sulfur atom, and four oxygen atoms, which substance is consumed first?

(d)  How many atoms of each remaining element would remain unreacted in the change described in (c)?

 

4.31.  What is the limiting reactant in a reaction that produces sodium chloride from 8 g of sodium and 8 g of diatomic chlorine?

 

4.32.  Which of the postulates of Dalton’s atomic theory explains why we can calculate a theoretical yield for a chemical reaction?

 

4.33.  A student isolated 25 g of a compound following a procedure that would theoretically yield 81 g. What was his percent yield?

 

4.34.  A sample of 0.53 g of carbon dioxide was obtained by heating 1.31 g of calcium carbonate. What is the percent yield for this reaction?

CaCO3(s) → CaO(s) + CO2(s)

 

4.35.  Freon-12, CCl2F2, is prepared from CCl4 by reaction with HF. The other product of this reaction is HCl. Outline the steps needed to determine the percent yield of a reaction that produces 12.5 g of CCl2F2 from 32.9 g of CCl4. Freon-12 has been banned and is no longer used as a refrigerant because it catalyzes the decomposition of ozone and has a very long lifetime in the atmosphere. Determine the percent yield.

 

4.36.  Citric acid, C6H8O7, a component of jams, jellies, and fruity soft drinks, is prepared industrially via fermentation of sucrose by the mold Aspergillus niger. The equation representing this reaction is

C12H22O11 + H2O + 3 O2 → 2 C6H8O7 + 4 H2O

What mass of citric acid is produced from exactly 1 metric ton (1.000 × 103 kg) of sucrose if the yield is 92.30%?

 

4.37. Toluene, C6H5CH3, is oxidized by air under carefully controlled conditions to benzoic acid, C6H5CO2H, which is used to prepare the food preservative sodium benzoate, C6H5CO2Na. What is the percent yield of a reaction that converts 1.000 kg of toluene to 1.21 kg of benzoic acid?

2 C6H5CH3 + 3 O2 → 2 C6H5CO2H + 2 H2O

 

4.38.  In a laboratory experiment, the reaction of 3.0 mol of H2 with 2.0 mol of I2 produced 1.0 mol of HI. Determine the theoretical yield in grams and the percent yield for this reaction.

 

4.39.  Outline the steps needed to solve the following problem, then do the calculations. Ether, (C2H5)2O, which was originally used as an anesthetic but has been replaced by safer and more effective medications, is prepared by the reaction of ethanol with sulfuric acid.

2C2H5OH + H2SO4 ⟶ (C2H5)2O + H2SO4·H2O

What is the percent yield of ether if 1.17 L (d = 0.7134 g/mL) is isolated from the reaction of 1.500 L of C2H5OH (d = 0.7894 g/mL)?

 

4.40.  Outline the steps needed to determine the limiting reactant when 30.0 g of propane, C3H8, is burned with 75.0 g of oxygen. Determine the limiting reactant.

 

4.41.  Outline the steps needed to determine the limiting reactant when 0.50 mol of Cr and 0.75 mol of H3PO4 react according to the following chemical equation.

2 Cr + 2 H3PO4 → 2 CrPO4 + 3 H2

Determine the limiting reactant.

 

4.42.  What is the limiting reactant when 1.50 g of lithium and 1.50 g of nitrogen combine to form lithium nitride, a component of advanced batteries, according to the following unbalanced equation?

Li + N2 → Li3N

 

4.43.  Uranium can be isolated from its ores by dissolving it as UO2(NO3)2, then separating it as solid UO2(C2O4)·3H2O. Addition of 0.4031 g of sodium oxalate, Na2C2O4, to a solution containing 1.481 g of uranyl nitrate, UO2(NO3)2, yields 1.073 g of solid UO2(C2O4)·3H2O.

Na2C2O4 + UO2(NO3)2 + 3H2O ⟶ UO2(C2O4)·3H2O + 2NaNO3

Determine the limiting reactant and the percent yield of this reaction.

 

4.44.  How many molecules of C2H4Cl2 can be prepared from 15 C2H4 molecules and 8 Cl2 molecules?

 

image4.45.  How many molecules of the sweetener saccharin can be prepared from 30 C atoms, 25 H atoms, 12 O atoms, 8 S atoms, and 14 N atoms?

 

 

 

4.46.  The phosphorus pentoxide used to produce phosphoric acid for cola soft drinks is prepared by burning phosphorus in oxygen.

(a)  What is the limiting reactant when 0.200 mol of P4 and 0.200 mol of O2 react according to

P4 + 5 O2 → P4O10

(b)  Calculate the percent yield if 10.0 g of P4O10 is isolated from the reaction.

 

4.47.  Would you agree to buy 1 trillion (1,000,000,000,000) gold atoms for $5? Explain why or why not. Find the current price of gold at http://money.cnn.com/data/commodities/

(1 troy ounce = 31.1 g)

 

4.4  Quantitative Chemical Analysis

4.48.  What volume of 0.0105-M HBr solution is required to titrate 125 mL of a 0.0100-M Ca(OH)2 solution?

Ca(OH)2(aq) + 2 HBr(aq) → CaBr2(aq) + 2 H2O(l)

 

4.49.  Titration of a 20.0-mL sample of acid rain required 1.7 mL of 0.0811 M NaOH to reach the end point. If we assume that the acidity of the rain is due to the presence of sulfuric acid, what was the concentration of sulfuric acid in this sample of rain?

 

4.50.  What is the concentration of NaCl in a solution if titration of 15.00 mL of the solution with 0.2503 M AgNO3 requires 20.22 mL of the AgNO3 solution to reach the end point?

AgNO3(aq) + NaCl(aq) → AgCl(s) + NaNO3(aq)

 

4.51.  In a common medical laboratory determination of the concentration of free chloride ion in blood serum, a serum sample is titrated with a Hg(NO3)2 solution.

2 Cl(aq) + Hg(NO3)2(aq) → 2 NO3(aq) + HgCl2(s)

What is the Cl concentration in a 0.25-mL sample of normal serum that requires 1.46 mL of 8.25 × 10−4 M Hg(NO3)2(aq) to reach the end point?

 

4.52.  Potatoes can be peeled commercially by soaking them in a 3 M to 6 M solution of sodium hydroxide, then removing the loosened skins by spraying them with water. Does a sodium hydroxide solution have a suitable concentration if titration of 12.00 mL of the solution requires 30.6 mL of 1.65 M HCI to reach the end point?

 

4.53.  A sample of gallium bromide, GaBr3, weighing 0.165 g was dissolved in water and treated with silver nitrate, AgNO3, resulting in the precipitation of 0.299 g AgBr. Use these data to compute the %Ga (by mass) GaBr3.

 

4.54.  The principal component of mothballs is naphthalene, a compound with a molecular mass of about 130 amu, containing only carbon and hydrogen. A 3.000-mg sample of naphthalene burns to give 10.3 mg of CO2. Determine its empirical and molecular formulas.

 

4.55.  A 0.025-g sample of a compound composed of boron and hydrogen, with a molecular mass of ~28 amu, burns spontaneously when exposed to air, producing 0.063 g of B2O3. What are the empirical and molecular formulas of the compound?

 

4.56.  Sodium bicarbonate (baking soda), NaHCO3, can be purified by dissolving it in hot water (60°C), filtering to remove insoluble impurities, cooling to 0°C to precipitate solid NaHCO3, and then filtering to remove the solid, leaving soluble impurities in solution. Any NaHCO3 that remains in solution is not recovered. The solubility of NaHCO3 in hot water of 60°C is 164 g/L. Its solubility in cold water of 0°C is 69 g/L. What is the percent yield of NaHCO3 when it is purified by this method?

 

4.57.  What volume of 0.600 M HCl is required to react completely with 2.50 g of sodium hydrogen carbonate?

NaHCO3(aq) + HCl(aq) → NaCl(aq) + CO2(g) + H2O(l)

 

4.58.  What volume of 0.08892 M HNO3 is required to react completely with 0.2352 g of potassium hydrogen phosphate?

2 HNO3(aq) + K2HPO4(aq) → H3PO4(aq) + 2 KNO3(aq)

 

4.59.  What volume of a 0.3300-M solution of sodium hydroxide would be required to titrate 15.00 mL of 0.1500 M oxalic acid?

C2O4H2(aq) + 2 NaOH(aq) → Na2C2O4(aq) + 2 H2O(l)

 

4.60.  What volume of a 0.00945-M solution of potassium hydroxide would be required to titrate 50.00 mL of a sample of acid rain with a H2SO4 concentration of 1.23 × 10−4 M.

H2SO4(aq) + 2 KOH(aq) → K2SO4(aq) + 2 H2O(l)

 

4.61.  A sample of solid calcium hydroxide, Ca(OH)2, is allowed to stand in water until a saturated solution is formed. A titration of 75.00 mL of this solution with 5.00 × 10−2 M HCl requires 36.6 mL of the acid to reach the end point.

Ca(OH)2(aq) + 2 HCl(aq) → CaCl2(aq) + 2 H2O(l)

What is the molarity?

 

4.62.  What mass of Ca(OH)2 will react with 25.0 g of butanoic to form the preservative calcium butanoate according to the equation?

image

 

4.63.  How many milliliters of a 0.1500-M solution of KOH will be required to titrate 40.00 mL of a 0.0656-M solution of H3PO4?

H3PO4(aq) + 2 KOH(aq) → K2HPO4(aq) + 2 H2O(l)

 

4.64.  Potassium hydrogen phthalate, KHC8H4O4, or KHP, is used in many laboratories, including general chemistry laboratories, to standardize solutions of base. KHP is one of only a few stable solid acids that can be dried by warming and weighed. A 0.3420-g sample of KHC8H4O4 reacts with 35.73 mL of a NaOH solution in a titration. What is the molar concentration of the NaOH?

KHC8H4O4(aq) + NaOH(aq) → KNaC8H4O4(aq) + H2O(aq)

 

4.65.  The reaction of WCl6 with Al at ~400°C gives black crystals of a compound containing only tungsten and chlorine. A sample of this compound, when reduced with hydrogen, gives 0.2232 g of tungsten metal and hydrogen chloride, which is absorbed in water. Titration of the hydrochloric acid thus produced requires 46.2 mL of 0.1051 M NaOH to reach the end point. What is the empirical formula of the black tungsten chloride?

License

Chapter 4 Problems Copyright © by Nicole Bouvier-Brown; Saori Shiraki; J. Ryan Hunt; and Emily Jarvis. All Rights Reserved.

Share This Book