Percent Yield Skill Practice 34

Reaction Yields Continued: Percent Yield. The amount of product that may be produced by a reaction under specified conditions, as calculated per the stoichiometry of an appropriate balanced chemical equation, is called the theoretical yield of the reaction. In practice, the amount of product obtained is called the actual yield, and it is often less than the theoretical yield for a. ANSWERS ONLY Limiting Reactant and Percent Yield PRACTICE Chemistry ANSWERS ONLY Limiting Reactant and Percent Yield PRACTICE You may attach extra sheets if you need more space. Propane (C 3 H 8) reacts with oxygen in a. Filename: LimreactpercyieldpractANS.pdf - Read File Online - Report Abuse. Percent Yield 9. Liquid nitroglycerine (C3H5(NO3) 3) is a powerful explosive. When it detonates, it produces a gaseous mixture of nitrogen, water, carbon dioxide, and oxygen. What is the theoretical yield of nitrogen 5.55 g of nitroglycerine explodes? If the actual amount of nitrogen obtained is 0.991 g, what is the percent yield of nitrogen?

Percent Yield Skill Practice 34 1
Percent Yield Skill Practice 34 Practice Percent Yield Answers
Percent Yield Skill Practice 34
Percent Yield Skill Practice 34 Class

The world of pharmaceutical production is an expensive one. Many drugs have several steps in their synthesis and use costly chemicals. A great deal of research takes place to develop better ways to make drugs faster and more efficiently. Analysis of how much of a compound is produced in any given reaction is an important part of cost control.

Percent Yield

Chemical reactions in the real world do not always go exactly as planned on paper. In the course of an experiment, many things will contribute to the formation of less product than would be predicted. Besides spills and other experimental errors, there are often losses due to an incomplete reaction, undesirable side reactions, etc. Chemists need a measurement that indicates how successful a reaction has been. This measurement is called the percent yield.

To compute the percent yield, it is first necessary to determine how much of the product should be formed based on stoichiometry. This is called the theoretical yield, the maximum amount of product that could be formed from the given amounts of reactants. The actual yield is the amount of product that is actually formed when the reaction is carried out in the laboratory. The percent yield is the ratio of the actual yield to the theoretical yield, expressed as a percentage:

[text{Percent Yield} = frac{text{Actual Yield}}{text{Theoretical Yield}} times 100%]

Percent yield is very important in the manufacture of products. Much time and money is spent improving the percent yield for chemical production. When complex chemicals are synthesized by many different reactions, one step with a low percent yield can quickly cause a large waste of reactants and unnecessary expense.

Typically, percent yields are understandably less than (100%) because of the reasons indicated earlier. However, percent yields greater than (100%) are possible if the measured product of the reaction contains impurities that cause its mass to be greater than it actually would be if the product was pure. When a chemist synthesizes a desired chemical, he or she is always careful to purify the products of the reaction.

Percent yield skill practice 34 questions

Example (PageIndex{1})

Potassium chlorate decomposes upon slight heating in the presence of a catalyst, according to the reaction below.

[2 ce{KClO_3} left( s right) rightarrow 2 ce{KCl} left( s right) + 3 ce{O_2} left( g right)]

In a certain experiment, (40.0 : text{g} : ce{KClO_3}) is heated until it completely decomposes. What is the theoretical yield of oxygen gas? The experiment is performed, the oxygen gas is collected, and its mass is found to be (14.9 : text{g}). What is the percent yield for the reaction?

Solution

First, we will calculate the theoretical yield based on the stoichiometry.

Step 1: List the known quantities and plan the problem.

Known

Given: Mass of (ce{KClO_3} = 40.0 : text{g})
Molar mass (ce{KClO_3} = 122.55 : text{g/mol})
Molar mass (ce{O_2} = 32.00 : text{g/mol})

Unknown

Theoretical yield (ce{O_2} = ? : text{g})

Apply stoichiometry to convert from the mass of a reactant to the mass of a product:

[text{g} : ce{KClO_3} rightarrow text{mol} : ce{KClO_3} rightarrow text{mol} : ce{O_2} rightarrow text{g} : ce{O_2} nonumber]

Step 2: Solve.

[40.0 : text{g} : ce{KClO_3} times frac{1 : text{mol} : ce{KClO_3}}{122.55 : text{g} : ce{KClO_3}} times frac{3 : text{mol} : ce{O_2}}{2 : text{mol} : ce{KClO_3}} times frac{32.00 : text{g} : ce{O_2}}{1 : text{mol} : ce{O_2}} = 15.7 : text{g} : ce{O_2} nonumber]

The theoretical yield of (ce{O_2}) is (15.7 : text{g}).

Step 3: Think about your result.

The mass of oxygen gas must be less than the (40.0 : text{g}) of potassium chlorate that was decomposed.

Now we will use the actual yield and the theoretical yield to calculate the percent yield.

Step 1: List the known quantities and plan the problem.

Known

Actual yield (= 14.9 : text{g})
Theoretical yield (= 15.7 : text{g})

Unknown

Percent yield (= ? %)