Honors Chemistry

1. Honors Chemistry Chapter 3: Mass relationships in Chemical Reactions

2. 3.1 Atomic Mass • Too tiny to mass individual atoms • Unit needed to compare masses of atoms • Atomic Mass Unit • Early amu had several standards • Now defined as 1/12 the mass of carbon-12 • Labeled u to signify unified amu • Average Atomic Mass • Weighted average of all isotopes of element • Used for most calculations

3. 3.2 Avogadro’s Number • Amedeo Avogadro • Looking for a convenient relationship between grams and number of particles • Varies by atomic mass • 1 atomic mass in grams = 6.022 x 1023 atoms • Avogadro’s number: NA = 6.022 x 1023 • The Mole • 1 mol = NA particles • Unit of counting particles, similar to the unit “dozen”

4. 3.3 Molecular Mass • Sum of all atoms in a molecule • E.g., H2O = 2 (1.008) + 1 (16.00) = 18.02 u • Try this: Find M of NaHCO3 • Mole Conversions • 1 mol = NA particles • 1 mol = (molecular mass) g • mass  moles  particles M NA • Solve using dimensional analysis

5. 3.3 Molecular Mass • How many grams are in 0.75 mol NH3? • M = 1 (14.01) + 3 (1.008) = 17.03 g/mol • Therefore, 1 mol = 17.03 g • 0.75 mol 17.03 g ------------ x ----------- = 13 g 1 1 mol • Try this… • How many moles are in 15.0 g N2O?

6. 3.3 Molecular Mass • How many molecules are in 125 g CH3COOH? • M = 2 (12.01) + 4 (1.008) + 2(16.00) • M = 60.05 u • 125 g 1 mol 6.022 x 1023 molecule-------- x ---------- x ------------------------- 1 60.05 g 1 mol • = 1.25 x 1024 molecules

7. 3.4 Mass Spectrometer • Device that separates particles by mass • helped verify the existence of isotopes • Used to identify unknown substances • Not terribly important to us!

8. 3.5 Percent Composition • Percent by mass of each element in the compound • Find % composition of CaCl2 • 1 Ca = 40.082 Cl = 70.90 • 110.98 u • % Ca = 40.08 / 110.98 = 36.11 % • % Cl = 70.90 / 110.98 = 63.89 %

9. 3.6 Empirical Formula • Based on laboratory data • Simplest whole number ratio of elements • E.g., glucose is C6H12O6 • Empirical formula is CH2O • Subscripts represent ratio by mole, not mass

10. 3.6 Empirical Formula • A compound contains 0.900 g Ca and 1.60 g Cl. Find the empirical formula. • Ca: 0.900 g 1 mol ---------- x ---------- = 0.0225 mol 1 40.08 g • Cl: 1.60 g 1 mol -------- x ---------- = 0.0451 mol 1 35.45 g • Divide by lowest value to get whole numbers • 0.0451 / 0.0225 = 2, so formula is CaCl2

11. 3.6 Empirical Formula • Try this… • Find the empirical formula for a compound that is composed of 53.73% Fe and 46.27% S. • Remember that it is percent by mass, so those percents can be treated as grams! • There is a trick at the end of this one.

12. 3.6 Molecular Formula • Need to know the molecular mass • Divide molecular mass by empirical mass to find how much “bigger” the molecular formula is • Multiply empirical formula by that number • Try this… • A compound is 40.0% C, 6.67% H, 53.3% O. • Molecular mass = 180.1 u. • Find molecular formula.

13. 3.7 Chemical Equations • Chemical reaction • Process in which a substance is changed into one or more new substances • Chemical equation • Arrangement of chemical symbols to represent what happens during a chemical reaction • Example reaction • Carbon reacts with oxygen to yield carbon dioxide • C + O2 CO2

14. 3.7 Chemical Equations • States of substances • (s) = solid • (l) = liquid • (g) = gas • (aq) = aqueous solution • HgO (s)  Hg (l) + O2 (g) • Note that the number of oxygens is not conserved. We have to fix that!

15. 3.7 Balancing Equations • Consider: H2 + O2 H2O • We’ve lost an oxygen! • Can we change it to H2 + O2  H2O2 ? • Can we add an O: H2 + O2 H2O + O ? • A better solution: H2 + O2  2 H2O • Now fix the hydrogens: 2 H2 + O2  2 H2O • Two H2 molecules react with one O2 molecule to form two water molecules

16. 3.7 Balancing Equations • Try these… • NaClO3 NaCl + O2 • 2 NaClO3 2 NaCl + 3 O2 • CO2 + H2O  C6H12O6 + O2 • 6 CO2 + 6 H2O  C6H12O6 + 6 O2 • CaCl2 + Na3PO4 Ca3(PO4)2 + NaCl • 3 CaCl2 + 2 Na3PO4Ca3(PO4)2 + 6 NaCl

17. 3.8 Stoichiometry • Quantitative study of chemical reactions • Realize that reaction coefficients are really moles! • 15.0 g oxygen react with excess hydrogen. How much water is produced? • 2 H2 + O2 2 H2O • 15.0g O2 1 mol O2 2 mol H2O 18.0 g H2O------------ x ------------- x -------------- x ------------- 1 32.0 g O2 1 mol O2 1 mol H2O • = 16.9 g H2O produced

18. 3.9 Limiting Reagents • When reactants are not present in the exact stoichiometric ratio, one reactant will be used up before the others • Limiting reagent – reactant used up first • Excess reagent – reactant that is present in larger quantity than needed • Convert both to moles to find out which is the limiting reagent

19. 3.9 Limiting Reagents • Try this… • 5.0 g hydrogen react with 20.0 g nitrogen. How much ammonia is produced? • N2 + 3 H2 2 NH3 • Find how many mol NH3 can be made from the H2 • Find how many mol NH3 can be made from the N2 • Use the lesser amount (limiting reagent) • The other substance is present in excess

20. 3.10 Reaction Yield • Theoretical yield • Amount you should have gotten from reaction • Result of mol calculation • Actual Yield • What you actually got from the reaction • Percent Yield • Actual / theoretical x 100%