1 / 26

Chapter 12 Chemical Quantities

Chapter 12 Chemical Quantities . 12.2 Using Moles. Warm-up: Making a Sandwich. How Many Sandwiches?. What is Stoichiometry?. Stoichiometry is the study of quantitative relationships between amounts of reactants used and products formed by a chemical reaction.

cosima
Télécharger la présentation

Chapter 12 Chemical Quantities

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. Chapter 12 Chemical Quantities 12.2 Using Moles

  2. Warm-up: Making a Sandwich How Many Sandwiches?

  3. What is Stoichiometry? Stoichiometry is the study of quantitative relationships between amounts of reactants used and products formed by a chemical reaction. A balanced chemical equation is needed to solve any stoichiometry problem

  4. Practical Applications of Stoichiometry In a spacecraft, the carbon dioxide exhaled by astronauts can be removed by its reaction with lithium hydroxide, LiOH, according to the following chemical equation. CO2(g) + 2LiOH(s) Li2CO3(s) + H2O(l) How many moles of lithium hydroxide are required to react with 20 mol of CO2, the average amount exhaled by a person each day?

  5. Strategy – Relate everything to the mole The mole is the common thread that links reactants to products. 1CO2(g) + 2LiOH(s) 1Li2CO3(s) + 1H2O(l) Mole Ratios

  6. The Mole Super Highway

  7. Practice Problems – Mole to Mole How many moles of oxygen are needed to fully combust 1.6 moles of ethane(C2H6)? Balanced Chemical Equation How many moles of water are formed when 3.8 moles of Hydrogen react with an excess of Oxygen? O

  8. Warm-up Felix has six of the same Charazard cards. For every 3 Charazard cards that he trades in, he can get one Arcanine cards. Each Arcanine card is valued at $2.50. How much money can Felix make from a trade if he trades in all of his Charazard cards? 3 1

  9. Practice Problems – Mole to Mass How many moles of oxygen are needed to produce 15.6g of carbon dioxide? How many grams of water are formed when 4.5 moles of oxygen react with an excess of hydrogen? O

  10. Practice Problems – Mass to Mass How many grams of ethane are needed to produce 23.4g of water? How many grams of water are formed when 18.6 grams of oxygen react with an excess of hydrogen? O

  11. Warm-up At STP, which of the following would have the greatest volume? 1mole = NO 1mole = He 1mole = CH4

  12. Practice Problems – Volume at STP How many liters of oxygen are required to react with 5.6 liters of hydrogen to produce water at STP? O

  13. Solving forVolume without STP Conditions • When a chemical reaction is carried out under conditions other than STP, the ideal gas law equation must be used. PV=nRT is the Ideal Gas Law Equation where…. • P = pressure • V = volume • n = moles • R = gas constant = = • T = temperature in Kelvin

  14. Practice Problems – Ideal Gas Law PV=nRT R = gas constant = = What volume of carbon dioxide can be produced from 1.2 moles of ethane gas at 200K and 0.65 atm?

  15. Warm-up • You mix together the ingredients to make a batch of chocolate chip cookies. The recipe says that the yield should be 3 dozen cookies. You only get 30 cookies. What percentage of the expected yield did you get?

  16. Percent Yield Stoichiometric calculations provide a theoretical yield or maximum amount of product that can be produced from a given amount of reactants. The actual yield is the amount that is actually produced when a reaction is carried out. The percent yield reflects the ratio of the theoretical and actual yields

  17. Practice Problem - Percent Yield When 4.3 grams of sodium are combined with aluminum nitrate in the following equation, 1.52g of aluminum are produced. What is the percent yield of aluminum?

  18. Warm-up • What percentage of the students in this classroom are girls?

  19. Percent Composition by Mass The total mass of each individual element in a compound divided by the total mass of the compound What is the percent composition of Mg(BrO4)2? Remember how to calculate molar mass….. 1(mass Mg) + 2(mass of Br) + 8(mass of oxygen) = Mass of Mg(BrO4)2

  20. Warm-up • Simplify the following fractions.

  21. Empirical Formula Chemical formula which contains the lowest whole number ratio of atoms Ionic formulas always contain the lowest whole number ratios Covalent compounds do not always contain the lowest whole number ratios What is the Empirical Formula of the following compounds? C6H12O6 C3H9O6 H2O2

  22. Determining the Empirical Formula of a Compound NxOy What is the empirical formula for a compound which contains 25.9% nitrogen and 74.1% oxygen by mass? • Covert % to mass (if needed) • Convert mass to moles • Divide each molar quantity by the lowest number of moles • Multiply by the smallest number needed to create a whole number ratio (if needed) Assume a 100g sample. In that sample 25.9 g is nitrogen and 74.1g is oxygen N1.85O4.63 N1O2.5 N2O5 N1x2O2.5x2

  23. Which of the following are empirical formulas? Warm-up C2H8 C2H8N2 H3PO4 C8H12O4 Li2SO4 CH4

  24. Molecular Formulas Many chemicals can have the same empirical formula because atoms can share electrons in many ways. Acetic Acid Glucose Empirical Formula =

  25. Simple Molecular Problems What is the molecular formula of a compound with an empirical formula of CH2O and a molecular mass of 90g/mol? CH2O =1(12g)+2(1g)+1(16g) = 30g • Determine the empirical mass • Divide the molecular mass by the empirical mass to determine how much larger the mass of the molecule is compared to the empirical formula • Multiple the subscripts of each element in the empirical formula by the factor determined in #2 C3H6O3 C1x3H2x3O1x3

  26. Longer Molecular Problems • Determine the empirical formula • Given the molecular mass, determine the molecular formula Determine the molecular formula of a compound that has a mass of 34g and contains 94.1% oxygen and 5.9% hydrogen by mass.

More Related