The Mole

1. The Mole Chapter 11

2. 11.1 Measuring Matter • Substances react according to definite ratios of numbers of particles (atoms, ions, formula units or molecules). • Balanced chemical equations tell us what the ratios of these particles is. • If we want to know how many of these particles we have, we can find it by measuring the mass .

3. Avogadro’s Number • Scientists have found that the atomic mass of an element contains 6.02 X 1023 atoms of that element. • This number is known as Avogadro’s number. • This number is also equivalent to 1 mole of particles.

4. The Mole • The mole is the SI base unit for the amount of substance. • It is a quantity, just like a dozen, a pair, or a gross!! • It is defined as the number of particles in exactly 12 g of pure carbon-12. • When dealing with moles, the simplest unit of any substance is called a representative particle. • The particle may be an atom, a molecule, a formula unit, or an ion.

5. Example • How many molecules are in 2.25 moles of Br2? • Bromine is an element that consists of diatomic molecules. One mole of bromine contains 6.02 X 1023 bromine molecules. • Using dimensional analysis, 2.25 molBromine x 6.02 X 1023 molecules Bromine 1 molBromine = 1.35 X 1024 molecules Br2

6. Practice • Calculate the number of molecules in 15.7 moles of carbon dioxide. • Calculate the number of molecules in 0.0544 moles of H2O. • Calculate the number of moles in 9.22 X 1023 atoms of iron. • Calculate the number of moles of sucrose in a sample that contains 2.05 X 1022 sucrose molecules.

7. 11.2 Mass and the Mole • One mole of a monatomic element consists 6.02 X 1023 atoms of that element. • The mass of a mole of any substance is called the molar mass of the substance. • The molar mass of a monoatomic element is numerically equal to the atomic mass of element, but expressed in grams.

8. Practice • Calculate the mass of 6.89 mol of antimony. • A chemist needs 0.0700 mol selenium for a reaction. What mass of selenium should the chemist use? • A sample of sulfur has a mass of 223 g. How many moles of sulfur are in the sample? • Calculate the number of atoms in 2.00g of platinum. • How many sulfur atoms are in a metric ton (1.00 106) of sulfur?

9. 11.3 Moles of Compounds • Remember that a mole of a compound contains as many moles of each element as are indicated by the subscripts in the formula of the compound. • For example, a mole of ammonia (NH3) contains one mole of nitrogen and three moles of hydrogen.

10. Molar Mass of a Compound • The molar mass of a compound is the mass of a mole of the representative particles of the compound. • To find the molar mass, add up the molar masses of all the atoms in the representative particle.

11. Compound’s Molar Mass • For example, in NH3 you would add up the molar mass of nitrogen, and three times the molar mass of hydrogen. • Mmammonia = 14.01 + 3 (1.01) = 14.01 + 3.03 = 17.04 g

12. Practice • Calculate the number of moles in 17.2 g of benzene (C6H6). • Calculate the number of moles in 350.0 g of potassium chlorate. • Determine the mass of 0.187 mol of tin (II) sulfate (SnSO4).

13. 11.4 Empirical and Molecular Formulas • Remember that every chemical compound has a definite composition—a composition that is always the same wherever that compound is found. • The composition of a compound is usually stated as the percent by mass of each element in the compound.

14. Percent Composition • The percent composition of an element can be found in the following way. % mass = mass of element in compound X 100% Molar mass of compound

15. Example • Determine the percent composition of calcium chloride (CaCl2). • %Ca = 40.078 g CaX 100% = 36.112% Ca 110.98 g CaCl2 • %Cl = 70.906 gCl X 100% = 63.888% Cl 110.984 g CaCl2

16. Empirical Formulas • The empirical formula is the simplest whole-number ratio of atoms of elements in the compound.

17. Example • The percent composition of an unknown compound is found to be 38.43% Mn, 16.80% C and 44.77% O. Determine the compound the compound’s empirical formula.

18. Practice • The composition of acetic acid is 40.00 % carbon, 6.71% hydrogen, 53.29 % oxygen. Calculate the empirical formula for acetic acid. • Calculate the empirical formula for a compound whose analysis is 74.97 % aluminum and 25.03% carbon.

19. Molecular Formula • For many compounds, the empirical formula is not the true formula. • A molecular formula tells the exact number of atoms of each element in a molecule or formula unit. • The molecular formula is always a whole-number multiple of the empirical formula. • To find, you must know the molar mass of the compound and its empirical formula.

20. Example • Maleic acid is a compound that is widely used in plastics and textiles. The composition of maleic acid is 41.39% carbon, 3.47% hydrogen and 55.14% oxygen. Its molar mass is 116.1 g/mol. Calculate the molecular formula.

21. Practice • Ricinine is one of the poisonous compounds found in the castor plant. The composition of ricinine is 58.54% carbon.91% hydrogen, 17,06% nitrogen and 19.49% oxygen. Ricinine’s molar mass is 164.16 g/mol. Find its molecular formula. • A compound of phosphorous and sulfur contains 27.87% phosphorous and 72.13% sulfur. The molar mass of the compound is 222.3 g/mol. Calculate its molecular formula.

22. 11.5 The Formula for a Hydrate • Many compounds, particularly ionic compounds, include a specific number of water molecules into their crystals when they crystallize from aqueous solution. • Compounds that include water in their crystal structures are called hydrates. • The formula is written by adding the formula for water to the formula for the compound, and the number of waters is shown with a coefficient.

23. Example • A hydrate of aluminum bromide is composed of 71.16% AlBr3 and 28.84% H2O. What is the formula of the hydrate?

24. Practice • Cerium (III) iodide (CeI3) occurs as a hydrate with the composition 76.3% CeI3 and 23.7% H2O. Calculate the formula of the hydrate. • Lead (II) acetate (Pb(C2H3O2)2) exists as a crystalline hydrate that is 14.25% water by mass. What is the molecular formula for this hydrate?