Usage Guidelines for Jeopardy PowerPoint Game Game Setup

1. Usage Guidelines for Jeopardy PowerPoint Game • Game Setup • Right now, Click File > Save As, and save this template with a different file name. This will keep the template untouched, so you can use it next time! • Scroll through the presentation and enter the answers (which are really the questions) and the questions (which are really the answers). • Enter in the five category names on the main game board (Slide 4). • Game Play • Open 2nd Slide, let the sound play. Click to 3rd Slide, let the sound play. Click to 4th Slide and show students the Game Board • As you play the game, click on the YELLOW DOLLAR AMOUNT that the contestant calls, not the surrounding box. • When the student answers, click anywhere on the screen to see the correct answer. Keep track of which questions have already been picked by printing out the game board screen (Slide 4) and checking off as you go. • Click on the “House / Home Icon” box to return to the main scoreboard. • Final Jeopardy – Go to Slide 3 and click “Final Jeopardy” button in the bottom right corner, click again for the Question, click again for final jeopardy sound, When that is finished playing click again for the answer slide.

3. ??? ??? ??? ??? ??? 100 100 100 100 100 200 200 200 200 200 300 300 300 300 300 400 400 400 400 400 500 500 500 500 500

4. Definitions 1 Definitions 2 Limiting Reactants Percent Yield LR/PY Potpourri 100 100 100 100 100 200 200 200 200 200 300 300 300 300 300 400 400 400 400 400 500 500 500 500 500

5. This unit of measurement is equivalent to the number of particles in 12.00 grams of Carbon 12. Definitions 1 Q100

6. Mole Definitions 1 A100

7. The amount of product that would result if all the limiting reactant was used based on stoichiometry. Definitions 1 Q200

8. Theoretical Yield Definitions 1 A200

9. Used to calculate how close the theoretical and actual yield are. Definitions 1 Q300

10. Percent Yield Definitions 1 A300

11. The substance that is not used up completely in the chemical reaction. Definitions 1 Q400

12. Excess Reactant Definitions 1 A400

13. What is the formula for calculation of percent yield? Definitions 1 Q500

14. (actual yield/theoretical yield) x 100. Definitions 1 A500

15. The reactant in the chemical equation that caps the amount of product that can form. Definitions 2 Q100

16. Limiting Reactant Definitions 2 A100

17. Relationships between the relative ratios of substances in balanced chemical equations and using them to calculate mass to moles, moles to mass, and mass to mass. Definitions 2 Q200

18. Stoichiometry Definitions 2 A200

19. DAILY DOUBLE DAILY DOUBLE

20. Your results are more ________ if you have a higher percent yield. Definitions 2 Q300

21. accurate Definitions 2 A300

22. The comparison of the number of moles given by a chemical reaction and used to convert between compounds. Definitions 2 Q400

23. Mole Ratio/Relationship Definitions 2 400

24. The percentage that indicates how far away an experimental result is from a theoretical (accepted) result. Definitions 2 Q500

25. Percent Error Definitions 2 A500

26. What is the limiting reactant if 10g Cl2 reacts with 25g HBr?Cl2 + 2HBr  2HCl + Br2Molar mass of Cl2: 70.90Molar mass of HBr: 80.91 Molar mass of HCl: 36.46 Limiting Reactant Q100

27. Cl2 Limiting Reactant A100

28. What is the limiting reactant if 20g C2H6 burns in 60g O2?2C2H6 + 5O2 2CO2 + 6H2OMolar mass of C2H6: 30.08Molar mass of O2: 32.00Molar mass of CO2: 44.02 Limiting Reactant Q200

29. C2H6 Limiting Reactant A200

30. What is the limiting reactant if 55g H2S reacts with 70g O2?2H2S + 3O2 2SO2+ 2H2OMolar mass of H2S: 34.09Molar mass of O2: 32.00Molar mass of SO2: 64.07 Limiting Reactant Q300

31. O2 Limiting Reactant A300

32. What is the limiting reactant if 536g Fe2O3reacts with 21g H2?Fe2O3+ 3H2 2Fe + 3H2OMolar mass of Fe2O3: 159.70Molar mass of H2: 2.02Molar mass of Fe: 55.85 Limiting Reactant Q400

33. Fe2O3 Limiting Reactant A400

34. What is the excess reactant if 515g NaCl reacts with 782g AgNO3?2NaCl + Cu(NO3)2 2NaNO3 + CuCl2 Molar mass of NaCl: 64.44Molar mass of Cu(NO3)2: 187.57Molar mass of NaNO3: 85.00 Limiting Reactant Q500

35. Cu(NO3)2 Limiting Reactant A500

36. If the theoretical yield of a reaction is 62.3g and the actual yield is 59.7 grams, find the percent yield and round to two decimal places. Percent Yield Q100

37. 95.83% Percent Yield A100

38. If the theoretical yield of a reaction is 125.75g and the actual yield is 111.23g, find the percent yield and round to two decimal places. Percent Yield Q200

39. 88.45% Percent Yield A200

40. If the percent yield of an equation is 56.54% and the actual yield recorded was 39.73 grams, what was the theoretical yield of the reaction? What is the percent error of the whole reaction? Percent Yield Q300

41. Theoretical yield is 70.27g, percent error is 43.46% Percent Yield A300

42. If the percent yield of an equation is 97.45% and the theoretical yield is 150.4 grams, what is the actual yield in the reaction? What is the percent error of the whole reaction? Percent Yield Q400

43. Actual Yield is 146.7 grams and percent error is 2.55% Percent Yield A400

44. Calculate the percent yield of a reaction if 4504 grams of water was produced in reality, and when calculating it based on the limiting reactant, you found that the theoretical yield was 4599 grams of water. Round to two decimal places. Percent Yield Q500

45. 97.93% Percent Yield A500

46. Explain how you would find the percent yield of a reaction. LR/PY Potpourri Q100

47. Actual Yield/Theoretical Yield x 100 LR/PY Potpourri A100

48. Think of a real life example of limiting reactants. LR/PY Potpourri Q200

49. Answers will vary LR/PY Potpourri A200

50. How do you calculate the percent error of a reaction if the percent yield is given already? LR/PY Potpourri Q300