The Mole

1. The Mole

2. Not the type of mole we are talking about

3. Measuring Matter • You often measure the amount of something by one of three different methods: • Count • Mass • Volume

4. ConversionsTry the practice problems on page 289!!! • 12 apples = 1 dozen apples Count 12 apples 1dozen apples 1 dozen apples = .20 bushel Volume 1 dozen apples .20 bushel 1 dozen apples = 2.0 kg Mass 1 dozen apples 2.0 kg

5. The Mole Q: how long would it take to spend a mole of $1 coins if they were being spent at a rate of 1 billion per second?

6. Mollionaire Q: how long would it take to spend a mole of $1 coins if they were being spent at a rate of 1 billion per second? A: $ 6.02 x 1023 / $1 000 000 000 = 6.02 x 1014 payments = 6.02 x 1014 seconds 6.02 x 1014 seconds / 60 = 1.003 x 1013 minutes 1.003 x 1013 minutes / 60 = 1.672 x 1011 hours 1.672 x 1011 hours / 24 = 6.968 x 109 days 6.968 x 109 days / 365.25 = 1.908 x 107 years A: It would take 19 million years

7. What is a Mole? Just as 12 eggs is a dozen ( a specific number of particles), a mole is 6.02 x 10 23 particles. This number of representative particles is called Avogadro’s number. *That’s Avogadro, not Avocado!!!!

8. What is meant by “representative particles”? Representative particles are whatever you are talking about: atoms, molecules, or formula units (ions). The representative particle of most elements is the atom. Seven elements exist as diatomic molecules, and, as such, its representative particle is the molecule. The seven: H2, N2, O2, F2, Cl2, Br2, I2.

9. 1 mol representative particles 6.02 x 1023 particles • OK, so now we know that a mole is 6.02 x1023 representative particles. So how many atoms are in one mole of an compound, or how many moles are in 6.02 x 1023 atoms? • Example: • How many moles are in 6.02 x 1023 atoms of silver? • Solution: • Determine the conversion factor. • 1 mole = 6.02 x 1023 representative particles

10. 1 mol Ag 6.02 x 1023 Ag atoms 6.02 x 1023 Ag atoms x

11. 6.02 x 1023 molecules CO2 1 mole CO2 2 oxygen atoms 1 molecule CO2 x To find the number of atoms in a mole of a compound, you must determine the number of atoms in a representative formula of that compound. Example: How many oxygen atoms are in a mole of CO2? 1 mole CO2 x = 12.04 x 1023 atoms O2; or, 1.204 x 1024 atoms O2.

12. Look on Page 290 and 291 Try the practice problems!!!! Converting Number of Particles to Moles How many representative Particles are in one mole??

13. When discussing the mole, using atoms leads to very large numbers. An easier way to discuss moles is to work with grams of atoms instead. The gram atomic mass (gam) is the atomic mass of an element expressed in grams. For carbon, the gam is 12.0 g. For atomic hydrogen, the gam is 1.0 g. What is the gam for iron and mercury? (55.85 g & 200.6 g) How many atoms are contained in the gram atomic mass of an element? The gam contains one mole of atoms (6.02 x 1023 atoms) of that element.

14. Thus, if 12.0 g of carbon is the gam of carbon, 12.0 g is 1 mol of carbon, and has 6.02 x 1023 atoms. What is the mass of a mole of a compound? To answer this you must know the formula of the compound. The formula tells you the number of atoms of each element in a representative particle of that compound. You calculate the mass of a mole of a compound by adding together the atomic masses of the atoms making up the compound. This is called gram molecular mass (gmm) Example: What is the molecular mass of SO3?

15. Molar mass • The mass of one mole is called “molar mass” • E.g. 1 mol Li = 6.94 g Li • This is expressed as 6.94 g/mol • What are the following molar masses? S SO2 Cu3(BO3)2 32.06 g/mol 64.06 g/mol 308.27 g/mol Calculate molar masses (to 2 decimal places) CaCl2 (NH4)2CO3 O2 Pb3(PO4)2 C6H12O6 Cu x 3 = 63.55 x 3 = 190.65 B x 2 = 10.81 x 2 = 21.62 O x 6 = 16.00 x 6 = 96.00 308.27

16. Molar mass • The mass of one mole is called “molar mass” • E.g. 1 mol Li = 6.94 g Li • This is expressed as 6.94 g/mol • What are the following molar masses? S SO2 Cu3(BO3)2 32.06 g/mol 64.06 g/mol 308.27 g/mol Calculate molar masses (to 2 decimal places) CaCl2 (NH4)2CO3 O2 Pb3(PO4)2 C6H12O6 110.98 g/mol (Cax1, Clx2) 96.11g/mol(Nx2, Hx8, Cx1, Ox3) 32.00 g/mol (Ox2) 811.54 g/mol (Pbx3, Px2, Ox8) 180.18 g/mol (Cx6, Hx12, Ox6)

17. 76.0 gN2O3 1 molN2O3 x Example: How many grams are in 7.20 mol of N2O3? N2 = 28.0 g O3 = 48.0 g 1 mole N2O3 = 76.0 g 7.20 molN2O3 = 547.2 gN2O3 = 5.47 x 102 gN2O3 You Try It! 1. How many grams in .720 mol Be? 2. How many moles in 2.40 g N2? 6.48 g 0.086 mol

18. Easy peasy!! Now let’s see if the fog has lifted….

19. Example • If I have 2.00 moles of C13H18O2, how many moles of each atom would I have?

20. Formula Mass • mass of a molecule, ion, or formula unit • sum of mass of all atoms in the chemical formula • in amu • Ex: H2O • 18.01528 amu • formula mass = molecular mass for molecular compound

21. Example • Find formula mass of potassium chlorate. • KClO3 • 1(39.0983) + 1(35.4527) + 3(15.9994) • 122.549 amu

22. Molar Masses • mass of one mole of pure substance • numerically equal to formula mass • units: g/mol • Find molar mass of barium nitrate. • Ba(NO3)2 • 1(137.327) + 2(14.00674) + 6(15.9994) • 261.337 g/mol

23. Molar Mass in Conversions • can be used as a conversion factor • between grams and moles • What is the mass in grams of 2.50 mol of oxygen gas?

24. Example • Ibuprofen, C13H18O2, is the active ingredient in many pain relievers. • Find molar mass: (13 x 12.011) + (18 x 1.00794) + (2 x 15.9994) =206.29 g/mol

25. Example • If the tablets in a bottle contain a total of 33 g of ibuprofen, how many moles are in one bottle? • How many molecules of ibuprofen are in the bottle?

26. Example • What is the number of moles of carbon in that bottle? • What is the total mass in grams of carbon in the bottle?

27. The Amount of A Mole of Gas We have seen that one-mole amounts of liquids or solids have different volumes than other solids or liquids. What about the volume of gas? Moles of gases have very predictable volumes. Changing temperature or pressure of a gas can vary the volume. That is why the volume of a gas is measured at a standard temperature and pressure (STP). Standard temperature is 0°C. Standard pressure is 101.2 kPa or 1 atmosphere (atm) At STP, 1 mol of any gas occupies a volume of 22.4 L.

28. 22.4 L SO2 1 mol SO2 x 1 mole SO2 22.4 L SO2 x 22.4 L is known as the molar volume of a gas which means it contains 6.02 x 1023 representative particles of that gas. Example: Determine the volume, in liters, of 0.600 mol of SO2 gas at STP. 0.600 mol SO2 = 13.4 L SO2 Assuming STP, how many moles are in 67.2 L SO2? 67.2 L SO2 = 3 mol SO2

29. Review: 1. What volume, in liters, will 0.680 mol of a certain gas occupy? 2. How many moles is 1.33 x 104 mL of O2 at STP?

30. Mass/Density of a Gas Would 22.4 L of one gas also have the same mass as 22.4 L of another gas at STP? Probably not. A mole of one gas have a mass equal to its gfm. Different gases usually have different gfm’s. Measuring the volume of a gas is preferred to measuring mass. Knowing the volume can also help find the density of the gas. Density is found by dividing the mass of a gas by its volume. Because volume can change with a change in temperature, density is measured at STP.

31. molar mass molar volume g/mol 22.4 L/mol = = g L = molar mass molar volume 32 g/mol 22.4 L/mol = D = Density (at STP) Example: What is the density of oxygen gas at STP? (in grams per liter.) = 1.43 g/L

32. Percent Composition To keep your lawn healthy, wealthy, and wise you need to use fertilizer. You can’t just use any ol’ fertilizer. You need to use one that has the right mixture of elements or compounds depending on what you need to do. You need to know the relative amount of each nutrient. This is the same in the laboratory. When you make a new compound, you need to determine its formula by finding the relative amounts of elements in the compound. The relative amounts are expressed as the percent composition, the percent by mass of each element in a compound.

33. grams of element X grams of compound There are as many percent values as there are elements in the compound. The percentages must add up to 100%. % mass of element X = x 100% Example: An 8.20-g piece of magnesium combines with a 5.40-g sample of oxygen completely to form a compound. What is the percent composition of this compound?

34. mass Mg mass cmpd. 8.20 g 13.6 g = mass O mass cmpd. 5.40 g 13.6 g 1. Find mass of compound. 13.60 g = mass of compound (8.20 g + 5.40 g) 2. Find % of each element % Mg = = 60.3% % O = = = 39.7 %

35. 36 g 44 g = 81.8 % 8 g 44 g = 18.2 % H Once you determine the percent composition of a compound you can determine the number of grams of an element in a specific amount of compound. Example: Calculate the mass of carbon in 82.0 g of propane, C3H8. 1. Determine % composition of C3H8. C3H8 = 44.0 g C: H:

36. 81.8 g C 100 g C3H8 x 2. Use conversion factor based on percent by mass of carbon in ethane. a. 81.8 % C means that for every 100 g C3H8, 81.8 g will be C. 82 g C3H8 = 67.1 g C Check to see if 67.1/82 = 81.8 %

37. Problems: Calculate the amount of hydrogen in: a. 350 g C2H6. b. 20.2 g NaHSO4 c. 124 g Ca(C2H3O2) 2 d. 378 g HCN e. 100 g H2O

38. Empirical Formulas Once you make a new compound in the laboratory, you can determine the percent composition information. Once you know the percent composition, you can determine the empirical formula of the compound. The empirical formula gives the lowest whole number ratio of the atoms of the elements in a compound. CO2 is an empirical formula because it is the lowest whole-number ratio. N2H4 (an explosive) has an empirical formula of NH2.

39. 1 mol N 14.0 g N 1 mol O 16.0 g O What is the empirical formula of a compound that is 25.9% N and 74.1% O? 1. Remember % composition means that in 100 g of that compound each % equals that many grams. 2. Change g to moles 25.9 g N x = 1.85 mol N 74.1 g O x = 4.63 mol O N1.85O4.63 = mole ratio Not empirical formula because needs to be whole-numbers.

40. 1.85 mol N 1.85 4.63 mol O 1.85 3. Divide both molar values by smallest value to give you a “1” for element with smallest value. = 1 mol N = 2.50 mol O Is N1O2.5 correct? No, not a whole number. Just multiply both values by a number to make a whole number. 1 x 2 = 2 mol N; 2.50 x 2 = 5 mol O Now you have whole numbers. empirical formula: N2O5

41. 1 mol K 39.1 g K 1 mol Cr 52 g Cr 1 mol O 16.00 g O If grams are already given to you, just convert to moles. Example: Analysis of a compound indicates it contains 2.08 g K, 1.40 g Cr, and 1.74 g O. Find its empirical formula. 2.08 g K x = .053 mol K 1.40 g Cr x = .027 mol Cr 1.74 g O x = .109 mol O

42. Then divide by smallest mole number to get mole ratio. Multiply if you need to.

43. Molecular Formula Determining the empirical formula does not always tell you the actual molecular formula. An example is methanol and glucose. CH2O = methanol (empirical and molecular) C6H12O6 = glucose (molecular) Same empirical; different molecular formula. Well, then, how do you know if you have empirical or molecular? You need to know the molar mass of the compound.

44. The molecular formula is some multiple of the empirical formula based on their masses. (simplest formula)x = molecular formula, where “x” = whole-number multiple (simplest-formula mass)x = molecular-formula mass

45. molecular-formula mass simplest-formula mass x = 283.889 g/mol 141.945 g/mol = Example: The simplest formula of a compound containing phosphorus and oxygen was found to be P2O5. The molar mass of this compound is 283.889 g/mol. What is the molecular formula of this compound? (simplest-formula mass)x = molecular-formula mass = 1.999 (P2O5)2 = molecular formula = P4O10