4.4 Reaction yields (Page 2/9)

Chemistry Page 2 / 9

mol HCl produced = 3 mol H_{2} \times \frac{2 mol HCl}{1 mol H_{2}} = 6 mol HCl

Complete reaction of the provided chlorine would produce

mol HCl produced = 2 mol {Cl}_{2} \times \frac{2 mol HCl}{1 mol {Cl}_{2}} = 4 mol HCl

The chlorine will be completely consumed once 4 moles of HCl have been produced. Since enough hydrogen was provided to yield 6 moles of HCl, there will be unreacted hydrogen remaining once this reaction is complete. Chlorine, therefore, is the limiting reactant and hydrogen is the excess reactant ( [link] ).

The figure shows a space-filling molecular models reacting. There is a reaction arrow pointing to the right in the middle. To the left of the reaction arrow there are three molecules each consisting of two green spheres bonded together. There are also five molecules each consisting of two smaller, white spheres bonded together. Above these molecules is the label, “Before reaction,” and below these molecules is the label, “6 H subscript 2 and 4 C l subscript 2.” To the right of the reaction arrow, there are eight molecules each consisting of one green sphere bonded to a smaller white sphere. There are also two molecules each consisting of two white spheres bonded together. Above these molecules is the label, “After reaction,” and below these molecules is the label, “8 H C l and 2 H subscript 2.” — When H ₂ and Cl ₂ are combined in nonstoichiometric amounts, one of these reactants will limit the amount of HCl that can be produced. This illustration shows a reaction in which hydrogen is present in excess and chlorine is the limiting reactant.

View this interactive simulation illustrating the concepts of limiting and excess reactants.

Identifying the limiting reactant

Silicon nitride is a very hard, high-temperature-resistant ceramic used as a component of turbine blades in jet engines. It is prepared according to the following equation:

3Si (s) + 2 N_{2} (g) ⟶ {Si}_{3} N_{4} (s)

Which is the limiting reactant when 2.00 g of Si and 1.50 g of N ₂ react?

Solution

Compute the provided molar amounts of reactants, and then compare these amounts to the balanced equation to identify the limiting reactant.

mol Si = 2.00 g Si \times \frac{1 mol Si}{28.09 g Si} = 0.0712 mol Si

mol N_{2} = 1.50 g N_{2} \times \frac{1 mol N_{2}}{28.02 g N_{2}} = 0.0535 mol N_{2}

The provided Si:N ₂ molar ratio is:

\frac{0.0712 mol Si}{0.0535 mol N_{2}} = \frac{1.33 mol Si}{1 mol N_{2}}

The stoichiometric Si:N ₂ ratio is:

\frac{3 mol Si}{2 mol N_{2}} = \frac{1.5 mol Si}{1 mol N_{2}}

Comparing these ratios shows that Si is provided in a less-than-stoichiometric amount, and so is the limiting reactant.

Alternatively, compute the amount of product expected for complete reaction of each of the provided reactants. The 0.0712 moles of silicon would yield

mol {Si}_{3} N_{4} produced = 0.0712 mol Si \times \frac{1 mol {Si}_{3} N_{4}}{3 mol Si} = 0.0237 mol {Si}_{3} N_{4}

while the 0.0535 moles of nitrogen would produce

mol {Si}_{3} N_{4} produced = 0.0535 mol N_{2} \times \frac{1 mol {Si}_{3} N_{4}}{2 mol N_{2}} = 0.0268 mol {Si}_{3} N_{4}

Since silicon yields the lesser amount of product, it is the limiting reactant.

Check your learning

Which is the limiting reactant when 5.00 g of H ₂ and 10.0 g of O ₂ react and form water?

Answer:

O ₂

Got questions? Get instant answers now!

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 number of reasons. Some reactions are inherently inefficient, being accompanied by side reactions that generate other products. Others are, by nature, incomplete (consider the partial reactions of weak acids and bases discussed earlier in this chapter). Some products are difficult to collect without some loss, and so less than perfect recovery will reduce the actual yield. The extent to which a reaction’s theoretical yield is achieved is commonly expressed as its percent yield :

percent yield = \frac{actual yield}{theoretical yield} \times 100 %

Actual and theoretical yields may be expressed as masses or molar amounts (or any other appropriate property; e.g., volume, if the product is a gas). As long as both yields are expressed using the same units, these units will cancel when percent yield is calculated.

Questions & Answers

what's Thermochemistry

rhoda Reply

the study of the heat energy which is associated with chemical reactions

Kaddija

How was CH4 and o2 was able to produce (Co2)and (H2o

Edafe Reply

explain please

Victory

First twenty elements with their valences

Martine Reply

what is chemistry

asue Reply

what is atom

asue

what is the best way to define periodic table for jamb

Damilola Reply

what is the change of matter from one state to another

Elijah Reply

what is isolation of organic compounds

IKyernum Reply

what is atomic radius

ThankGod Reply

Read Chapter 6, section 5

Kareem

Atomic radius is the radius of the atom and is also called the orbital radius

Kareem

atomic radius is the distance between the nucleus of an atom and its valence shell

Amos

Read Chapter 6, section 5

paulino

Bohr's model of the theory atom

Ayom Reply

is there a question?

when a gas is compressed why it becomes hot?

ATOMIC

It has no oxygen then

Goldyei

read the chapter on thermochemistry...the sections on "PV" work and the First Law of Thermodynamics should help..

Which element react with water

Mukthar Reply

Mgo

Ibeh

an increase in the pressure of a gas results in the decrease of its

Valentina Reply

definition of the periodic table

Cosmos Reply

What is the lkenes

Da Reply

what were atoms composed of?

Moses Reply

what is chemistry

Imoh Reply

what is chemistry

Damilola

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Source: OpenStax, Chemistry. OpenStax CNX. May 20, 2015 Download for free at http://legacy.cnx.org/content/col11760/1.9

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