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Data & Analysis Sheet Name: Matthew Woods Part 1: Vinegar reacting with calcium carbonate in eggshells 1. Describe what you saw each time you stirred the mixtures, including final observations of each. 2. In words only, write the chemical reaction occurring when vinegar and the eggshell react. It’s similar to Equation #7 in the instructions (but just use words, not formulas). Here’s the beginning: “Calcium carbonate plus acetic acid react to yield….” CaCO3+ 2H+ -> Ca+2 + H2O +CO2 3. What gas is in the bubbles produced? 4. In Cup 1, what is the limiting reactant and what evidence do you have to support your claim? 5. In Cup 2, what is the limiting reactant and what evidence do you have to support your claim? Part 2: Experimental Data for Baking Soda and vinegar reacting Data Mass baking soda (alone) Mass of beaker (alone) Vinegar % Mass vinegar + beaker Mass vinegar (alone) Mass mixture + beaker after reaction Mass mixture (only) after reaction Part 2: Table for Calculation Results (Show work below this table and enter final results here) Results 6. Molar mass of sodium bicarbonate 7. Moles of sodium bicarbonate 8. Mass of acetic acid in vinegar 9. Molar mass of acetic acid 10. Moles of acetic acid 11. Total initial mass of reactants 12. Final mass of mixture 13. Difference in mass = initial mass – final mass = carbon dioxide produced (actual yield) 14. Limiting Reactant 15. Theoretical yield carbon dioxide 16. % yield carbon dioxide Be careful of sig fig in your measurements and calculations. Calculations (Show all work by each question below and then enter the final results of each calculation into the table above.) Please make your answers stand out by bolding or coloring them. 6. Determine the molar mass of sodium bicarbonate. 7. Calculate the number of moles of sodium bicarbonate using the mass of baking soda. 8. Determine the mass of acetic acid used in the experiment. You need to look on your bottle of vinegar to do this. If your vinegar is 4 %, this means that every 100 g of vinegar contains 4 g of acetic acid. (If it is 5 %, then 100 g contains 5 g of acetic acid). To calculate the mass of acetic acid, use the following equation. For 5 %, replace 0.04 with 0.050. Record results in table. You can assume the percent has 2 sig figs. mass of acetic acid = mass of vinegar x 0.040 9. Determine the molar mass of acetic acid, HC2H3O2. 10. Determine the number of moles of acetic acid in each sample of vinegar. Hint: you need to use the mass of acetic acid, not the mass of vinegar. 11. Add the mass of baking soda and vinegar initially. This is the total initial mass of reactants. 12. Record the final mass of mixture.
 13. Determine the total mass gain or loss for the reaction by comparing your initial mass to the final mass of mixture. This is the mass of carbon dioxide lost which is your actual loss. 14. Compare the .

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Data & Analysis Sheet Name: Matthew Woods Part 1: Vinegar reacting with calcium carbonate in eggshells 1. Describe what you saw each time you stirred the mixtures, including final observations of each. 2. In words only, write the chemical reaction occurring when vinegar and the eggshell react. It’s similar to Equation #7 in the instructions (but just use words, not formulas). Here’s the beginning: “Calcium carbonate plus acetic acid react to yield….” CaCO3+ 2H+ -> Ca+2 + H2O +CO2 3. What gas is in the bubbles produced? 4. In Cup 1, what is the limiting reactant and what evidence do you have to support your claim? 5. In Cup 2, what is the limiting reactant and what evidence do you have to support your claim? Part 2: Experimental Data for Baking Soda and vinegar reacting Data Mass baking soda (alone) Mass of beaker (alone) Vinegar % Mass vinegar + beaker
Mass vinegar (alone) Mass mixture + beaker after reaction Mass mixture (only) after reaction Part 2: Table for Calculation Results (Show work below this table and enter final results here) Results 6. Molar mass of sodium bicarbonate 7. Moles of sodium bicarbonate 8. Mass of acetic acid in vinegar 9. Molar mass of acetic acid 10. Moles of acetic acid 11. Total initial mass of reactants 12. Final mass of mixture 13. Difference in mass = initial mass – final mass = carbon dioxide produced (actual yield) 14. Limiting Reactant 15. Theoretical yield carbon dioxide 16. % yield carbon dioxide
Be careful of sig fig in your measurements and calculations. Calculations (Show all work by each question below and then enter the final results of each calculation into the table above.) Please make your answers stand out by bolding or coloring them. 6. Determine the molar mass of sodium bicarbonate. 7. Calculate the number of moles of sodium bicarbonate using the mass of baking soda. 8. Determine the mass of acetic acid used in the experiment. You need to look on your bottle of vinegar to do this. If your vinegar is 4 %, this means that every 100 g of vinegar contains 4 g of acetic acid. (If it is 5 %, then 100 g contains 5 g of acetic acid). To calculate the mass of acetic acid, use the following equation. For 5 %, replace 0.04 with 0.050. Record results in table. You can assume the percent has 2 sig figs. mass of acetic acid = mass of vinegar x 0.040 9. Determine the molar mass of acetic acid, HC2H3O2. 10. Determine the number of moles of acetic acid in each sample of vinegar. Hint: you need to use the mass of acetic acid, not the mass of vinegar. 11. Add the mass of baking soda and vinegar initially. This is the total initial mass of reactants. 12. Record the final mass of mixture. 13. Determine the total mass gain or loss for the reaction by comparing your initial mass to the final mass of mixture. This is the mass of carbon dioxide lost which is your actual loss.
14. Compare the moles of sodium bicarbonate to moles of acetic acid. Which one is the limiting reactant and why? Show calculations to support this but also describe what you saw that supports your statement. 15. Determine the number of grams of carbon dioxide that the reaction should theoretically produce. This is where the pen and paper stoichiometry comes in. In the calculation, use the limiting reactant as your "known" and the carbon dioxide as your unknown. You have already calculated the moles of sodium bicarbonate and acetic acid used so Step I in the “three steps process” used to go from grams known to grams unknown is already done. See the Ch. 8 Lecture about Steps II and III, remembering that one mole of acetic acid or sodium bicarbonate should produce one mole of carbon dioxide (from Eq #7). 16. Calculate the “percent yield” for the carbon dioxide produced. If the actual yield is a negative number, then the % yield would be 0. Be careful of sig figs in your calculations. Make sure you showed work. Questions 17. Look at the percent yield of carbon dioxide produced. Give a possible cause (experimental error, not calculation or measurement or instrumental error) for differences between what you calculated should be produced (theoretical yield) and what was actually produced. This should be something that you probably couldn’t avoid very well. (So don’t say, “I measured wrong” or “I calculated wrong” because this is easily avoidable by redoing the lab or re-measuring). 18. In the calculation for #15, why couldn’t the moles of the other reactant be used in the calculation?
19. True or False: After you figure out the moles of the reactants in a reaction, the lower amount of moles is always the limiting reactant. Please explain your answer thoroughly. Providing an example would be very helpful. Keep going on the next page Extension with calcium carbonate: Suppose we did the quantitative experiment part 2 with calcium carbonate (found in egg shells and Tums) instead of baking soda. So we reacted it with vinegar and took mass measurements. 20. Write a balanced reaction for acetic acid reacting with calcium carbonate. Be careful. It is no longer a 1:1 ratio. Hint: you should’ve written this in words in #2 so now turn those words into correct formulas and balance. Include phases. 21. Suppose we got the following data from doing the lab with vinegar and calcium carbonate. Fill in the 2 missing boxes (with the green stars **) using the given data. Data Table Run #1 Mass calcium carbonate (alone) 3.9 g Mass beaker 30.0 g Vinegar percent 5% Mass vinegar + beaker 84.2 g Mass vinegar (alone) ** Mass mixture + beaker after reaction
87.4 g Mass mixture (only) after reaction ** Calculations (Show all work by each question below the table and then enter the final results of each calculation into the following table) Results (show work below) Run #1 22. Molar mass of calcium carbonate 23. Moles of calcium carbonate 24. Mass of acetic acid in vinegar 25. Molar mass of acetic acid 26. Moles of acetic acid 27. Total initial mass 28. Final mass mixture (measured in lab – copy from above table) 29. Difference in mass = initial mass – final mass = carbon dioxide produced (actual yield) 30. Limiting Reactant 31. Theoretical yield carbon dioxide 32. % yield carbon dioxide
22. Determine the molar mass of calcium carbonate (using a periodic table). 23. Calculate the number of moles of calcium carbonate using the data above. 24. Determine the mass of acetic acid used in the experiment. Assume vinegar is 5% on the bottle. (If it is 5 %, then 100 g contains 5 g of acetic acid). Record results in table below. You can assume the percent has 2 sig figs. 25. Determine the molar mass of acetic acid, HC2H3O2. No need to show work here if you did above. Just put it in the table. 26. Determine the number of moles of acetic acid in the sample of vinegar that was used. Hint: you need to use the mass of acetic acid, not the mass of vinegar. 27. Add the mass of calcium carbonate and vinegar initially. This is the total initial mass of mixture. Record results. 28. The final mass of the mixture is given in the table above. Just report this number below (no work to show). 29. Determine the total mass gain or loss for the reaction by comparing your initial mass to the final mass of mixture. This is the mass of carbon dioxide lost which is your actual loss. 30. To determine the number of grams of carbon dioxide that the reaction should theoretically be produced, we need to first determine the limiting reactant. This is where the pen and paper stoichiometry comes in. Compare the moles of calcium carbonate to acetic acid. Which one is the limiting reactant and why? ** Be very careful** This is not a 1:1 ratio like the first part of the lab.
31. Determine the theoretical yield of carbon dioxide. To do this, in the calculation, use the limiting reactant as your known and the carbon dioxide as your unknown. You have already calculated the moles of calcium carbonate and acetic acid used so Step I in the “three steps process” used to go from grams known to grams unknown is already done. See the Ch. 8 Lecture about Steps II and III, but remember that now we do not have a 1:1 ratio. 32. Calculate the “percent yield” for the carbon dioxide produced. If the actual yield is a negative number, then the % yield would be 0. Extra Credit Questions: a) In this particular example, the change in mass during the reaction provides evidence that a chemical reaction is taking place. Explain this. b) Is it necessary to have a change in mass in order to have a chemical reaction? Why or why not? c) Provide an example of a chemical reaction (not just a physical change) where no mass change would be observed.

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Data & Analysis Sheet .docx

  • 1. Data & Analysis Sheet Name: Matthew Woods Part 1: Vinegar reacting with calcium carbonate in eggshells 1. Describe what you saw each time you stirred the mixtures, including final observations of each. 2. In words only, write the chemical reaction occurring when vinegar and the eggshell react. It’s similar to Equation #7 in the instructions (but just use words, not formulas). Here’s the beginning: “Calcium carbonate plus acetic acid react to yield….” CaCO3+ 2H+ -> Ca+2 + H2O +CO2 3. What gas is in the bubbles produced? 4. In Cup 1, what is the limiting reactant and what evidence do you have to support your claim? 5. In Cup 2, what is the limiting reactant and what evidence do you have to support your claim? Part 2: Experimental Data for Baking Soda and vinegar reacting Data Mass baking soda (alone) Mass of beaker (alone) Vinegar % Mass vinegar + beaker
  • 2. Mass vinegar (alone) Mass mixture + beaker after reaction Mass mixture (only) after reaction Part 2: Table for Calculation Results (Show work below this table and enter final results here) Results 6. Molar mass of sodium bicarbonate 7. Moles of sodium bicarbonate 8. Mass of acetic acid in vinegar 9. Molar mass of acetic acid 10. Moles of acetic acid 11. Total initial mass of reactants 12. Final mass of mixture 13. Difference in mass = initial mass – final mass = carbon dioxide produced (actual yield) 14. Limiting Reactant 15. Theoretical yield carbon dioxide 16. % yield carbon dioxide
  • 3. Be careful of sig fig in your measurements and calculations. Calculations (Show all work by each question below and then enter the final results of each calculation into the table above.) Please make your answers stand out by bolding or coloring them. 6. Determine the molar mass of sodium bicarbonate. 7. Calculate the number of moles of sodium bicarbonate using the mass of baking soda. 8. Determine the mass of acetic acid used in the experiment. You need to look on your bottle of vinegar to do this. If your vinegar is 4 %, this means that every 100 g of vinegar contains 4 g of acetic acid. (If it is 5 %, then 100 g contains 5 g of acetic acid). To calculate the mass of acetic acid, use the following equation. For 5 %, replace 0.04 with 0.050. Record results in table. You can assume the percent has 2 sig figs. mass of acetic acid = mass of vinegar x 0.040 9. Determine the molar mass of acetic acid, HC2H3O2. 10. Determine the number of moles of acetic acid in each sample of vinegar. Hint: you need to use the mass of acetic acid, not the mass of vinegar. 11. Add the mass of baking soda and vinegar initially. This is the total initial mass of reactants. 12. Record the final mass of mixture. 13. Determine the total mass gain or loss for the reaction by comparing your initial mass to the final mass of mixture. This is the mass of carbon dioxide lost which is your actual loss.
  • 4. 14. Compare the moles of sodium bicarbonate to moles of acetic acid. Which one is the limiting reactant and why? Show calculations to support this but also describe what you saw that supports your statement. 15. Determine the number of grams of carbon dioxide that the reaction should theoretically produce. This is where the pen and paper stoichiometry comes in. In the calculation, use the limiting reactant as your "known" and the carbon dioxide as your unknown. You have already calculated the moles of sodium bicarbonate and acetic acid used so Step I in the “three steps process” used to go from grams known to grams unknown is already done. See the Ch. 8 Lecture about Steps II and III, remembering that one mole of acetic acid or sodium bicarbonate should produce one mole of carbon dioxide (from Eq #7). 16. Calculate the “percent yield” for the carbon dioxide produced. If the actual yield is a negative number, then the % yield would be 0. Be careful of sig figs in your calculations. Make sure you showed work. Questions 17. Look at the percent yield of carbon dioxide produced. Give a possible cause (experimental error, not calculation or measurement or instrumental error) for differences between what you calculated should be produced (theoretical yield) and what was actually produced. This should be something that you probably couldn’t avoid very well. (So don’t say, “I measured wrong” or “I calculated wrong” because this is easily avoidable by redoing the lab or re-measuring). 18. In the calculation for #15, why couldn’t the moles of the other reactant be used in the calculation?
  • 5. 19. True or False: After you figure out the moles of the reactants in a reaction, the lower amount of moles is always the limiting reactant. Please explain your answer thoroughly. Providing an example would be very helpful. Keep going on the next page Extension with calcium carbonate: Suppose we did the quantitative experiment part 2 with calcium carbonate (found in egg shells and Tums) instead of baking soda. So we reacted it with vinegar and took mass measurements. 20. Write a balanced reaction for acetic acid reacting with calcium carbonate. Be careful. It is no longer a 1:1 ratio. Hint: you should’ve written this in words in #2 so now turn those words into correct formulas and balance. Include phases. 21. Suppose we got the following data from doing the lab with vinegar and calcium carbonate. Fill in the 2 missing boxes (with the green stars **) using the given data. Data Table Run #1 Mass calcium carbonate (alone) 3.9 g Mass beaker 30.0 g Vinegar percent 5% Mass vinegar + beaker 84.2 g Mass vinegar (alone) ** Mass mixture + beaker after reaction
  • 6. 87.4 g Mass mixture (only) after reaction ** Calculations (Show all work by each question below the table and then enter the final results of each calculation into the following table) Results (show work below) Run #1 22. Molar mass of calcium carbonate 23. Moles of calcium carbonate 24. Mass of acetic acid in vinegar 25. Molar mass of acetic acid 26. Moles of acetic acid 27. Total initial mass 28. Final mass mixture (measured in lab – copy from above table) 29. Difference in mass = initial mass – final mass = carbon dioxide produced (actual yield) 30. Limiting Reactant 31. Theoretical yield carbon dioxide 32. % yield carbon dioxide
  • 7. 22. Determine the molar mass of calcium carbonate (using a periodic table). 23. Calculate the number of moles of calcium carbonate using the data above. 24. Determine the mass of acetic acid used in the experiment. Assume vinegar is 5% on the bottle. (If it is 5 %, then 100 g contains 5 g of acetic acid). Record results in table below. You can assume the percent has 2 sig figs. 25. Determine the molar mass of acetic acid, HC2H3O2. No need to show work here if you did above. Just put it in the table. 26. Determine the number of moles of acetic acid in the sample of vinegar that was used. Hint: you need to use the mass of acetic acid, not the mass of vinegar. 27. Add the mass of calcium carbonate and vinegar initially. This is the total initial mass of mixture. Record results. 28. The final mass of the mixture is given in the table above. Just report this number below (no work to show). 29. Determine the total mass gain or loss for the reaction by comparing your initial mass to the final mass of mixture. This is the mass of carbon dioxide lost which is your actual loss. 30. To determine the number of grams of carbon dioxide that the reaction should theoretically be produced, we need to first determine the limiting reactant. This is where the pen and paper stoichiometry comes in. Compare the moles of calcium carbonate to acetic acid. Which one is the limiting reactant and why? ** Be very careful** This is not a 1:1 ratio like the first part of the lab.
  • 8. 31. Determine the theoretical yield of carbon dioxide. To do this, in the calculation, use the limiting reactant as your known and the carbon dioxide as your unknown. You have already calculated the moles of calcium carbonate and acetic acid used so Step I in the “three steps process” used to go from grams known to grams unknown is already done. See the Ch. 8 Lecture about Steps II and III, but remember that now we do not have a 1:1 ratio. 32. Calculate the “percent yield” for the carbon dioxide produced. If the actual yield is a negative number, then the % yield would be 0. Extra Credit Questions: a) In this particular example, the change in mass during the reaction provides evidence that a chemical reaction is taking place. Explain this. b) Is it necessary to have a change in mass in order to have a chemical reaction? Why or why not? c) Provide an example of a chemical reaction (not just a physical change) where no mass change would be observed.