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Chapter 3: Problem 73

(a) Define the terms limiting reactant and excess reactant. (b) Why are the amounts of products formed in a reaction determined only by the amount of the limiting reactant? (c) Why should you base your choice of which compound is the limiting reactant on its number of initial moles, not on its initial mass in grams?

Short Answer

Expert verified
(a) The limiting reactant is the reactant that runs out first in a chemical reaction, causing the reaction to stop and not produce more products. The excess reactant is the reactant present in a greater quantity than necessary for the stoichiometric balance and remains partially unused when the reaction is completed. (b) The limiting reactant determines the amount of product formed in a reaction because once it is consumed, the reaction stops, and no more product can be formed. The reaction requires the presence of all reactants in their stoichiometric quantities for it to occur. (c) The choice of the limiting reactant should be based on the number of initial moles because the stoichiometry of a reaction depends on the mole ratios of the reactants, not on their masses. Using initial moles enables calculations of mole ratios directly from the balanced chemical equation and helps determine which reactant will run out first, leading to the correct identification of the limiting reactant. The initial mass in grams may not provide accurate information about the reactant's stoichiometry within the reaction, while the number of initial moles does.

Step by step solution

01

a) Limiting and Excess Reactants Definitions

The limiting reactant is the reactant that runs out first in a chemical reaction. Due to this, the reaction stops and cannot produce more products. On the other hand, the excess reactant is the reactant present in a greater quantity than necessary for the stoichiometric balance. It remains partially unused when the reaction is completed.
02

b) Role of Limiting Reactant in Product Formation

The limiting reactant determines the amount of product formed in a reaction because once it is consumed, the reaction stops and no more product can be formed. This is due to the fact that all reactants must be present in their stoichiometric quantities for the reaction to occur. If one of the reactants runs out, the reaction will cease to occur, and the product generation will be limited by the amount of the limiting reactant.
03

c) Choosing the Limiting Reactant Based on Initial Moles

The choice of the limiting reactant should be based on the number of initial moles because the stoichiometry of a reaction depends on the mole ratios of the reactants, not on their masses. Using the initial moles of a substance allows you to calculate the mole ratios directly from the balanced chemical equation and helps in determining which reactant will run out first, leading to the correct identification of the limiting reactant. The initial mass in grams may not provide accurate information about the reactant's stoichiometry within the reaction, while the number of initial moles does.

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Most popular questions from this chapter

A piece of aluminum foil \(1.00 \mathrm{~cm}^{2}\) and \(0.550-\mathrm{mm}\) thick is allowed to react with bromine to form aluminum bromide. (a) How many moles of aluminum were used? (The density of aluminum is $2.699 \mathrm{~g} / \mathrm{cm}^{3} .$ ) (b) How many grams of aluminum bromide form, assuming the aluminum reacts completely?

Determine the empirical formula of each of the following compounds if a sample contains (a) \(3.92 \mathrm{~mol} \mathrm{C}, 5.99 \mathrm{~mol} \mathrm{H},\) and \(2.94 \mathrm{~mol} \mathrm{O} ;\) (b) \(12.0 \mathrm{~g}\) calcium and 2.8 g nitrogen; \((\mathbf{c})\) \(89.14 \%\) Au and \(10.86 \%\) O by mass.

Washing soda, a compound used to prepare hard water for washing laundry, is a hydrate, which means that a certain number of water molecules are included in the solid structure. Its formula can be written as $\mathrm{Na}_{2} \mathrm{CO}_{3} \cdot \mathrm{xH}_{2} \mathrm{O},\( where \)x$ is the number of moles of \(\mathrm{H}_{2} \mathrm{O}\) per mole of $\mathrm{Na}_{2} \mathrm{CO}_{3} .$ When a 2.558-g sample of washing soda is heated at \(125^{\circ} \mathrm{C},\) all the water of hydration is lost, leaving $0.948 \mathrm{~g}\( of \)\mathrm{Na}_{2} \mathrm{CO}_{3} .\( What is the value of \)\chi ?$

Viridicatumtoxin B, \(\mathrm{C}_{30} \mathrm{H}_{31} \mathrm{NO}_{10},\) is a natural antibiotic compound. It requires a synthesis of 12 steps in the laboratory. Assuming all steps have equivalent yields of \(85 \%\), which is the final percent yield of the total synthesis?

Hydrogen cyanide, HCN, is a poisonous gas. The lethal dose is approximately \(300 \mathrm{mg}\) HCN per kilogram of air when inhaled. (a) Calculate the amount of HCN that gives the lethal dose in a small laboratory room measuring \(3.5 \times 4.5 \times 2.5 \mathrm{~m}\). The density of air at \(26^{\circ} \mathrm{C}\) is $0.00118 \mathrm{~g} / \mathrm{cm}^{3} .(\mathbf{b})\( If the HCN is formed by reaction of \)\mathrm{NaCN}$ with an acid such as \(\mathrm{H}_{2} \mathrm{SO}_{4},\) what mass of NaCN gives the lethal dose in the room? $$ 2 \mathrm{NaCN}(s)+\mathrm{H}_{2} \mathrm{SO}_{4}(a q) \longrightarrow \mathrm{Na}_{2} \mathrm{SO}_{4}(a q)+2 \mathrm{HCN}(g) $$ (c) HCN forms when synthetic fibers containing Orlon \(^{\text {- }}\) or Acrilan \(^{\circledast}\) burn. Acrilan \(^{\circledast}\) has an empirical formula of \(\mathrm{CH}_{2} \mathrm{CHCN},\) so HCN is \(50.9 \%\) of the formula by mass. A rug measures \(3.5 \times 4.5 \mathrm{~m}\) and contains $850 \mathrm{~g}\( of Acrilan \)^{\circledast}$ fibers per square yard of carpet. If the rug burns, will a lethal dose of HCN be generated in the room? Assume that the yield of HCN from the fibers is \(20 \%\) and that the carpet is \(50 \%\) consumed.
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