Chp 9 Lecture Outline - Orange Coast College
Transcription
Chp 9 Lecture Outline - Orange Coast College
1 Chapter 9: Chemical Quantities or Stoichiometry is I. Information from Chemical Equations II. Chemical Equations and Stoichiometry A. Mole-Mole Relationships B. Mass-Mole-Mole-Mass Relationships C. Limiting Reactants D. Percent Yield 2 I. Information from Chemical Equations S(s) + O2(g) + H2O(g) H2SO4(l) 1. Equation must follow the law of conservation of mass. 2. Coefficients - are called stoichiometric coefficients - provide conversion factors - refer to numbers of molecules, atoms, formula units, or moles Molecular Interpretation Molar Interpretation 3 II. Chemical Equations and Stoichiometry A. Mole-Mole Relationships If we combust 1.235 moles of butane (C4H10(g)) in excess O2(g), how many moles of the following will react or be produced? C4H10(g) + O2(g) CO2(g) + H2O(g) 1. How many moles of O2 will react? 2. How many moles of CO2 will be produced? 4 A. Mole-Mole Relationships Cont’d If you produced 2.451 moles of CO2(g), how many moles of O2(g) must have reacted? 2C4H10(g) + 13O2(g) 8CO2(g) + 10H2O(g) 5 B. Mass-Mole-Mole-Mass Relationships What mass of S8 is needed to react with 2.45 g of H2? 8H2(g) + S8(s) 8H2S(g) What mass of H2 is needed to produce 1.34x1023 molecules of H2S? 8H2(g) + S8(s) 8H2S(g) 6 C. Limiting Reactants Limiting ingredient (food) or reactant (chemistry) ingredient or reactant that limits the amount of food or chemical product(s) that we can produce Excess ingredients (food) or reactants (chemistry) anything that doesn’t limit the amount of product(s) we produce How many sandwiches can we make if we have ….. 2 pieces of bread – 4 pieces of tri-tip – 3 avocadoes – 4 tomatoes – 2 slices of lettuce – 7 How many avocadoes will be left? 8 Limiting Reactants and Chemistry NO(g) + O2(g) NO3(g) 1. 2. 9 Calculations If you react 5.00 grams of CaC2 with 5.00 grams of H2O, how many grams of Ca(OH)2 can be produced? How much of each reactant is left after the reaction is complete? 10 If you react 10.0 mg of Al with 10.0 mg of I2, what is the mass of AlI3 that can be produced? How much of each reactant is left after the reaction is complete? 11 D. Percent Yield Urea (CN2H4O) - 12th most synthesized chemical Fertilizer (~46% N) ~150 million metric tons produced per year $271 per metric ton ($325 last semester) Chemical plant pictured produces ~1.2 million metric tons per year Boesch Moeller Process 12 While in graduate school, you come up with a new technique for combining NH3 and CO2 to make urea. The first time you performed your synthesis, you produced 3.00 g of urea when 2.00 g of NH3 reacted with excess CO2. What was your percent yield? Should we talk to the patent people? 2NH3(g) + CO2(g) CN2H4O(s) + H2O(l) 13