CHAPTER THREE

STIOCHIOMETRY CALCULATIONS WITH CHEMICAL

FORMULAS AND EQUATIONS

Balanced chemical equation:

Balanced equation for the chemical reaction: is a chemical equation

which has an equal number of each element on each side of the chemical reaction

2 H2 + O2 2H2O

CH4 + 2 O2 CO2 + 2 H2O (balanced)

Indicating the states of Reactants and Products:We use the symbols (g), (l), (s), and (aq) for gas, liquid, solid, and aqueous solution, respectively.

Some types of reactions: بعض أنواع التفاعلات

1- Combination reactions(الإتحاد) : in which two or more reactants combine to form the product(s). General Form: A + B → C

2- Decomposition reactions(التفكك)In which the substance undergoes a reaction to produce two or more other substances.

Sample Exercise 3.3

Write balanced equations for the following reactions:

(a)The combination reaction that occurs when Li metal and F2 gas react.

(b)The decomposition reaction that occurs when solid barium carbonate is heated (two products form: a solid and a gas.)

(a)

Combination reaction

(b)

Decomposition

3- Combustion (burning) reaction: (الإحتراق) Reactions involving O2

Combustion of propane:

Combustion of methanol:

Formula and molecular weights

Formula weight: is the sum of atomic weights of each atom in the chemical formula. For example: formula weight of H2SO4 is 98 g/mol

Molecular weight: if the chemical formula is that of a molecule.

Molecular formula of glucose C6H12O6 is 180 g/mol

Percentage composition from formulas

Practice Exercise:

Calculate the percentage of nitrogen, by mass, in Ca(NO3)2.

Solution:

Formula weight of Ca(NO3)2 = 164 g/mol


Avogadros Number and the Mole:

A mole: is the amount of matter that contains the atomic (or molecular) weight of a substance in grams.

Avogadros Number (NA) = 6.02  1023 objects per mol.

1 mol of C = 6.02  1023 C atoms.

1 mol of H2O = 6.02  1023 molecules.

1 mol of NO3- = 6.02  1023ions.

Practice Exercise 3.8:

How many oxygen atoms are in (a) 0.25 mol Ca(NO3)2 and (b) 1.50 mol ofcarbonate?

Solution:

Interconverting moles and masses

The mole concept acts as a bridge between mass and the number of particles.

P.E 3.12

(a) How many nitric acid molecules in 4.20 g HNO3? (b) How many O atoms are in this sample?

Solution:

Empirical Formulas From Analyses

The general procedure for determining empirical formula:

Sample Exercise 3.13:

Ascorbic acid (vitamin C) contains 40.92% C, 4.58% H and 54.50% O by mass. What is the empirical formula of ascorbic acid?

Solution:

Assume that we have 100 g sample.

Thus we have:

40.92 g C, 4.58 g H, and 54.50 g O

Molecular Formula from Empirical Formula

We can obtain the molecular formula of a compound from the empirical formula and molar mass of the compound, using the relation:

In the sample exercise (3.13) the empirical formula of ascorbic acid = 88 amu

Experimentally, the molecular formula of ascorbic acid = 176 amu.

The molecular formula is 2 times the empirical formula.

176/88 = 2. Consequently, we multiply the subscripts in the empirical formula by 2 to obtain the molecular formula.

Combustion analysis

When a compound containing C and H is completely combusted in plenty of O2.

The carbon is converted to CO2, and the hydrogen is converted to H2O. and the amounts of CO2, H2O produced are determined by measuring the increase in mass of CO2 and H2O absorbers.

S.E 3.15: Isopropyl alcohol, is composed of C, H, and O. Combustion of 0.255 g of isopropyl alcohol produces 0.561 g CO2 and 0.306 g of H2O. Determine the empirical formula of isopropyl alcohol.

Solution

The molar ratio in the compound is (C:H:O =0.0128:0.034:0.0043)

Divide by the smallest number that is: 0.0043

So, the empirical formula of isopropyl alcohol is C3 H8 O.

Quantitative information from balanced equations

2 H2 (g) + O2 (g)  2 H2O (l)

2 molecules1 molecule 2 molecules

2 moles1 mol2 moles

The stoichiometric equivalent quntities (2, 1, and 2) are used to convert between quantities of reactants and products in a chemical reaction.

For example, consider the following reaction: the combustion of butane (C4H10), the fuel in

disposable general-purpose lighters Hوقود أجهزة الإشعال المنزلية :

2 C4H10 (l) + 13 O2 (g)  8 CO2 (g) + 10 H2O (g)

Let’s calculate the mass of CO2produced when 1.00 g of C4H10is burned.

Sample Exercise 3.16

Determine how many grams of water are produced in the oxidation of 1.00 g of glucose,C6H12O6:

C6H12O6(s) + 6 O2(g) → 6 CO2(g) + 6 H2O(l)

Limiting Reactants

limiting reactant : The reactant that is completely consumed in a reaction.

It determines, or limits, the amount of product formed.

The other reactants are sometimes called excess reactants.

In the chemical reaction, the quantities of reactants consumed and products formed, are restrictedby the quantity محصورة بكميةof the limitingreactant.

For example, the reaction: 2 H2(g) + O2(g) 2 H2O(g)

The limiting reactant: (H2) and 2 mol O2 (excess reactant) will remain and 10 mol H2O is the product.

Q 3.67)

Automotive air bags inflate when sodium azide, NaN3, rapidly decomposes to its component elements:

2 NaN3 (s) → 2 Na (s) + 3 N2 (g)

(a) How many moles of N2 are produced by the decompositionof 1.50 mol of NaN3?

(b) How many grams of NaN3 are required to form 10.0 g ofnitrogen gas?

(c) How many grams of NaN3 are required to produce10.0 of nitrogen gas, about the size of an automotiveair bag, if the gas has a density of 1.25 g/L?

Solution:

Q3.75)

Sodium hydroxide reacts with carbon dioxide as follows:

2NaOH (s) + CO2 (g) → Na2CO3 (s) + H2O (l)

Which is the limiting reactant when 1.85 mol NaOH and 1.00 mol CO2 are allowed to react? How many moles of Na2CO3can be produced? How many moles of the excess reactant remain after the completion of the reaction?

Solution:

2 NaOH (s) + CO2 (g)  Na2CO3 (s) +H2O(l)

Initially: 1.85 mol1.0 mol 00

Change:- 1.85 -0.925 0.925 0.925

Final quantities: 00.075 0.925 0.925

According to the chemical equation 1mol of CO 2 requires 2 moles of NaOH, but only 1.85 moles of NaOH is present. So, NaOH is the limiting reactant.

Moles of Na2CO3 produced = 0.925 mol

Moles of CO2 remained in excess = 0.075 mol

Q3.83)

Hydrogen sulfide is an impurity in natural gas that must be removed. One common removal method is called the Claus process, which relies on the reaction:

8 H2S (g) + 4 O2 (g) → S8 (l) + 8 H2O (g)

Under optimal conditionsوعند أفضل الظروف the Claus process gives 98% yield of

S8 from H2S. If you started with 30.0 grams of H2S and 50.0 grams of O2, how many grams of S8 would be produced, assuming 98% yield?

Solution:

Moles of H2S = 0.88 mol

Moles of O2 = 1.54 mol

8 H2S (g) + / 4 O2(g)  / S8 (s) + / 8 H2O (l)
Initially / 0.88 mol / 1.54 mol / 0 / 0
Change / - 0.88 / - 0.44 / 0.11 / 0.88
Final quantities / 0 / 1.10 / 0.11 / 0.88

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