1. Question of the Day Day 1 12-21
A solution containing 3.50 g sodium phosphate is mixed with a solution containing 6.40 g barium nitrate. After the reaction is complete, 4.85 g barium phosphate are collected.
1. What is the limiting reagent?
2. What is the theoretical yield of barium phosphate?
3. What is the percent yield of barium phosphate?
2Na3PO4(aq) + 3Ba(NO3)2(aq)  6NaNO3(aq) + Ba3(PO4)2(s)
molar masses:
Na3PO4 = 163.9
Ba(NO3)2 = 261.3
Ba3(PO4)2 = 601.9
Day 1

2. Question of the Day Day 2 12-22 3.15
Urea [(NH2)2CO] is prepared by reacting ammonia with carbon dioxide:
In one process, g of NH3 are treated with 1142 g of CO2.
(a) Which of the two reactants is the limiting reagent?
(b) Calculate the mass of (NH2)2CO formed.
(c) How much excess reagent (in grams) is left at the end of the reaction?
Day

3. 3.15
Strategy The reactant that produces fewer moles of product is the limiting reagent because it limits the amount of product that can be formed.
How do we convert from the amount of reactant to amount of product?
Perform this calculation for each reactant, then compare the moles of product, (NH2)2CO, formed by the given amounts of NH3 and CO2 to determine which reactant is the limiting reagent.

4. 3.15
Solution We carry out two separate calculations. First, starting with g of NH3, we calculate the number of moles of (NH2)2CO that could be produced if all the NH3 reacted according to the following conversions:
Combining these conversions in one step, we write

5. 3.15 Second, for 1142 g of CO2, the conversions are
The number of moles of (NH2)2CO that could be produced if all the CO2 reacted is
It follows, therefore, that NH3 must be the limiting reagent because it produces a smaller amount of (NH2)2CO.

6. 3.15
(b) Strategy We determined the moles of (NH2)2CO produced in part (a), using NH3 as the limiting reagent. How do we convert from moles to grams?
Solution The molar mass of (NH2)2CO is g. We use this as a conversion factor to convert from moles of (NH2)2CO to grams of (NH2)2CO:
Check Does your answer seem reasonable? moles of product are formed. What is the mass of 1 mole of (NH2)2CO?

7. 3.15
(c) Strategy Working backward, we can determine the amount of CO2 that reacted to produce moles of (NH2)2CO. The amount of CO2 left over is the difference between the initial amount and the amount reacted.
Solution Starting with moles of (NH2)2CO, we can determine the mass of CO2 that reacted using the mole ratio from the balanced equation and the molar mass of CO2. The conversion steps are

8. mass of CO2 remaining = 1142 g − 823.4 g = 319 g
3.15
Combining these conversions in one step, we write
The amount of CO2 remaining (in excess) is the difference between the initial amount (1142 g) and the amount reacted (823.4 g):
mass of CO2 remaining = 1142 g − g = 319 g

9. 1. Which reactant determines your theoretical yield?
Question of the Day
1. Which reactant determines your theoretical yield?
Day 4 1-4

10. Test will
Be Thursday
And Friday
This week!!!
Day 4 1-4

11. 3.16
The reaction between alcohols and halogen compounds to form ethers is important in organic chemistry, as illustrated here for the reaction between methanol (CH3OH) and methyl bromide (CH3Br) to form dimethylether (CH3OCH3), which is a useful precursor to other organic compounds and an aerosol propellant.
This reaction is carried out in a dry (water-free) organic solvent, and the butyl lithium (LiC4H9) serves to remove a hydrogen ion from CH3OH. Butyl lithium will also react with any residual water in the solvent, so the reaction is typically carried out with 2.5 molar equivalents of that reagent. How many grams of CH3Br and LiC4H9 will be needed to carry out the preceding reaction with 10.0 g of CH3OH?

12. 3.16
Solution We start with the knowledge that CH3OH and CH3Br are present in stoichiometric amounts and that LiC4H9 is the excess reagent. To calculate the quantities of CH3Br and LiC4H9 needed, we proceed as shown in Example 3.14.

13. 1. Balance the following equation: Al + Cr2O3  Al2O3 + Cr
Question of the Day
1. Balance the following equation:
Al + Cr2O3  Al2O3 + Cr
Period 3 Day 5 1-5

14. Test will be Thursday and Friday of this week and will cover ALL of Chapter 3!!!

15. 3.17
Titanium is a strong, lightweight, corrosion-resistant metal that is used in rockets, aircraft, jet engines, and bicycle frames. It is prepared by the reaction of titanium(IV) chloride with molten magnesium between 950°C and 1150°C:
In a certain industrial operation 3.54 × 107 g of TiCl4 are reacted with 1.13 × 107 g of Mg.
Calculate the theoretical yield of Ti in grams.
Calculate the percent yield if 7.91 × 106 g of Ti are actually obtained.

16. 3.17
Strategy
Because there are two reactants, this is likely to be a limiting reagent problem. The reactant that produces fewer moles of product is the limiting reagent.
How do we convert from amount of reactant to amount of product?
Perform this calculation for each reactant, then compare the moles of product, Ti, formed.

17. 3.17
Solution
Carry out two separate calculations to see which of the two reactants is the limiting reagent. First, starting with × 107 g of TiCl4, calculate the number of moles of Ti that could be produced if all the TiCl4 reacted. The conversions are
so that

18. 3.17
Next, we calculate the number of moles of Ti formed from × 107 g of Mg. The conversion steps are
And we write
Therefore, TiCl4 is the limiting reagent because it produces a smaller amount of Ti.

19. 3.17
The mass of Ti formed is
(b) Strategy The mass of Ti determined in part (a) is the theoretical yield. The amount given in part (b) is the actual yield of the reaction.

20. 3.17 Solution The percent yield is given by
Check Should the percent yield be less than 100 percent?

21. 1. Balance the following equation: Al + Cr2O3  Al2O3 + Cr
Question of the Day
1. Balance the following equation:
Al + Cr2O3  Al2O3 + Cr
Period 1 Day 5 1-5

22. Test will be Thursday and Friday of this week and will cover ALL of Chapter 3!!!

23. On-line Assignment
- Chapter 3 Problem Solving # 1

24. 1. Balance the following equation: Al + Cr2O3  Al2O3 + Cr
Question of the Day
1. Balance the following equation:
Al + Cr2O3  Al2O3 + Cr
Period 8 Day 5 1-5

25. Test will be Thursday and Friday of this week and will cover ALL of Chapter 3!!!

26. Question of the Day
What is the percent yield of CaO in the reaction CaCO3  CaO + CO2 if 5.33 g of CaO are obtained when 10.0 g of CaCO3 are used?
Day 6 1-6

27. Test will be Thursday and Friday of this week and will cover ALL of Chapter 3!!!

28. On-line Assignment
- Chapter 3 Problem Solving # 1

29. Question of the Day Day 1 12-21
Names ___________________________________________
___________________________________________
Question of the Day
A solution containing 3.50 g sodium phosphate is mixed with a solution containing 6.40 g barium nitrate. After the reaction is complete, 4.85 g barium phosphate are collected.
1. What is the limiting reagent?
2. What is the theoretical yield of barium phosphate?
3. What is the percent yield of barium phosphate?
2Na3PO4(aq) + 3Ba(NO3)2(aq)  6NaNO3(aq) + Ba3(PO4)2(s)
Day 29

30. Question of the Day Day 1 12-21
Names ___________________________________________
___________________________________________
Question of the Day
A solution containing 3.50 g sodium phosphate is mixed with a solution containing 6.40 g barium nitrate. After the reaction is complete, 4.85 g barium phosphate are collected.
1. What is the limiting reagent?
2. What is the theoretical yield of barium phosphate?
3. What is the percent yield of barium phosphate?
2Na3PO4(aq) + 3Ba(NO3)2(aq)  6NaNO3(aq) + Ba3(PO4)2(s)
Day 30

31. Period 3 Choices: Do nothing.
Retest a different version of the multiple choice test.
Have your open ended count double.

32. Quarterly marking period 2 Chapter 2 Part 2 AND Chapter 3
Period 8 Tuesday 1-12 day 4
Period 3 Wednesday 1-13 day 5
Period 1 Thursday 1-14 day 6