1 / 38

Stoichiometry

Stoichiometry. The quantitative study of chemical reactions. Stoichiometric Steps. Set up & balance rxn Change stuff given to moles Change moles given to ask Change what’s asked for to the proper unit. Step 1. Determine products of a reaction if they are not given Balance the reaction.

hayes
Download Presentation

Stoichiometry

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Stoichiometry • The quantitative study of chemical reactions

  2. Stoichiometric Steps • Set up & balance rxn • Change stuff given to moles • Change moles given to ask • Change what’s asked for to the proper unit

  3. Step 1 • Determine products of a reaction if they are not given • Balance the reaction

  4. Step 2 • Use molar conversion to change whatever is given to moles

  5. Step 3 • Use the molar ratio from the balanced reaction to convert the moles of what is given to the moles of what’s asked for.

  6. Step 4 • Use molar conversions to change the moles of what is asked for to the proper unit

  7. Calculate the volume of NH3 formed at STP when 6.0 kg of H2 react with excess N2 to form NH3

  8. Drill: Calculate the number of molecules of oxygen gas required to burn3.0 ng of C5H10O5

  9. Chm II: Calculate the mass of Lead(II)iodide formed when 66.2 g of lead (II)nitrate is combined with excess potassium iodide

  10. AP: Calculate the mass of solid product formed when 66.2 g of lead (II)nitrate is combined with excess potassium iodide solution

  11. Chm II: Calculate the mass of MgCO3 formed when 18.4 g of MgBr2 is combined with a solution containing excess K2CO3.

  12. Homework • Problem: 60 • Page 78

  13. AP: Calculate the mass of solid product formed when 18.4 g of MgBr2 is combined with a solution containing excess K2CO3.

  14. Chm II: Calculate the volume at STP of CO2 formed when 16.8 g of MgCO3 is decomposed creating CO2 & MgO.

  15. AP: Calculate the volume at STP of gas formed when 16.8 g of MgCO3 is decomposed by heat.

  16. Limiting Reactant • The reactant that gets used up • The reactant that determines the amount of product formed

  17. Excess Reactant • The reactant that Does Not get used up

  18. Stoichiometry with Multiple Reagents • Perform same steps for all reactants • Choose least amount of product

  19. Calculate the mass of glucose (C6H12O6) formed when 880 g of carbon dioxide is combined with 720 g of water in photosynthesis

  20. Chm II: Calculate the mass of BaSO4 formed when 104 g of BaCl2 is combined with 250 mL 1.00 M K2SO4

  21. AP: Calculate the mass of solid formed when 104 g of BaCl2 is combined with 250 mL 1.00 M K2SO4

  22. AP Drill: Calculate the mass of solid formed when 26.1 g of Ba(NO3)2 is combined with 25 mL 1.00 M K2SO4

  23. Theoretical Yield • The amount determined through stoichiometry • The amount solved for on paper

  24. Experimental Yield • The amount obtained in the lab • Actual yield

  25. Percent yield % Yield = (Exp/Theo) x 100 %

  26. 68 g NH3 was obtained in lab when 140 g of N2 reacts with excess H2. Calculate percent yield.

  27. Drill: 510 g PH3 was obtained when 0.62 kg of P4 reacts with excess H2. Calculate percent yield.

  28. Review HW • Problem 31 • on page 115

  29. Determine the mass of PH3 formed at STP when 2.0 x 1027 molecules P4 reacts with 4.0 kg of H2:

  30. Determine the volume of O2 released at STP when 32 kg of Fe2O3 is purified with an 80.0 % yield making Fe & O2

  31. Calculate the volume of oxygen gas at STP required to burn 12 kg of erythrose (C4H8O4)

  32. Calculate the mass of solid product formed when 41.6 g of barium chloride is added to 250 ml of 0.40 M potassium sulfate giving a 50.0 % yield:

  33. Calculate the mass of solid product formed when 2.00 g of calcium bromide is added to 250 ml of 0.40 M sodium sulfate:

  34. 4.61 g of lead(II)iodide was obtained when 66.2 g of lead(II)nitrate was added to 750 ml 0.10 M potassium iodide. Calculate the % yield & the molarity of all ions remaining in the solution.

  35. 33.1 g of lead(II)nitrate was added to 1500 mL 0.10 M potassium iodide. Calculate mass of solid product formed.

  36. An 30.0 g unknown sample (containing only C, H, & O) was burned in excess oxygen yielding 66 g CO2 & 36 g H2O. Calculate its empirical formula :

  37. An 240 g unknown sample (containing only C, H, S, & O) was burned in excess oxygen yielding 352 g CO2, 144 g H2O, & 128 g, SO2. Calculate its empirical formula :

  38. Calculate the volume of oxygen gas at STP required to burn 240 mg C5H8O2:

More Related