Announcements

1. Announcements • To join clicker to class today: • Turn on the Clicker (the red LED comes on). • Push “Join” button followed by “20” followed by the “Send” button (switches to flashing green LED if successful). • Exam one week from today. • Naming ionic compounds and acids containing polyatomic ions. • CaCl2: calcium chloride – Mn2O3: manganese (III) oxide • Na2HPO4: sodium hydrogen phosphate • H3PO4: phosphoric acid • Balancing chemical Equations • Number of each type of atom on each side must be equal. • 2H2 + O2 –––> 2H2O (4H and 2O/side) Review

2. Mole Map

3. Stoichiometry • Can answer questions like: How much SO3 necessary to produce the 3.959 x 1010 kg of H2SO4 manufactured in 2000? • Produced using same RXN as occurred in early atmosphere: SO3(g) + H2O(l) ---> H2SO4(aq) (balanced). • Key info • 80.064 g SO3/mol SO3 or M(SO3)= 80.064 g/mol • 98.079 g H2SO4/mol H2SO4 or M (H2SO4)= 98.079 g/mol • Route to solution (know amount of A want amount of B): mass of A -{÷M(A)}-> moles of A -{mole ratio}-> moles B -{xM(B)}-> mass B

4. Percent Yield • All the calculations we have done so far assume that all the reactants are converted to products. Often not true: • Sometimes a limiting reagent. • Most reactions go both backwards and forwards so do not reach completion. • There are often competing RXNs that take the reactants to compounds other than the desired products. (Want: A––>B, but get some A––>D) • Poor experimental technique (losing half the sample down the drain or collecting bits of filter paper with your product). • The amount you are off by is quantified in the

5. Example % yield • Consider elements in Earth’s crust. Compounds of Na make up about 2.5% of crust. • A common reaction of group 1 alkali metals is 2M + 2H2O –> 2MOH (metal hydroxide) + H2 • 2Na + 2H2O –> 2NaOH + H2 • Start with 23.0 g Na and an unlimited supply of H2O, what is the % yield if we got 35.0 g of NaOH • M(Na) =22.990 g Na /mol Na • M(NaOH)=39.997 g NaOH/mol NaOH