Stoichiometry is the calculation of quantities in chemical reactions. It allows chemists to determine the amounts of reactants and products from a balanced chemical equation. Stoichiometric calculations can relate amounts in moles, mass, or volume and are used to perform mole-mole, mass-mole, mole-mass, and mass-mass conversions. The percent yield of a reaction measures its efficiency by relating the actual product amount to the theoretical maximum.
Municipal wastewater treatment plant. Consider a municipal water treatment plant for a small community (Fig. P1.1). Wastewater, 32000 m3/day, flows through the treatment plant with a mean residence time of 8hr, air is bubbled through the tanks, and microbes in the tank attack and break down the organic material.
Coal burning electrical power station. Large central power stations (about 1000 MW electrical) using fluidized bed combustors may be built some day (see Fig.P1.2). These giants would be fed 240 tons of coal/hr (90% C, 10% H,), 50% of which would burn within the battery of primary fluidized beds, the other 50% elsewhere in the system.
Municipal wastewater treatment plant. Consider a municipal water treatment plant for a small community (Fig. P1.1). Wastewater, 32000 m3/day, flows through the treatment plant with a mean residence time of 8hr, air is bubbled through the tanks, and microbes in the tank attack and break down the organic material.
Coal burning electrical power station. Large central power stations (about 1000 MW electrical) using fluidized bed combustors may be built some day (see Fig.P1.2). These giants would be fed 240 tons of coal/hr (90% C, 10% H,), 50% of which would burn within the battery of primary fluidized beds, the other 50% elsewhere in the system.
This PowerPoint covers Stoichiometry and the concept of the Mole for my CHEM 2800 class that teaches elementary education majors the basics of chemistry
Basics of Chemistry: Chemical stoichiometryRAJEEVBAYAN1
This material presents quantitative method of numerical measurements involved in a chemical reaction.
this involves quantities such as the measures of mass in grams and the amount of substance in moles.
I am hoping that this material will help to make the concept easier.
This PowerPoint covers Stoichiometry and the concept of the Mole for my CHEM 2800 class that teaches elementary education majors the basics of chemistry
Basics of Chemistry: Chemical stoichiometryRAJEEVBAYAN1
This material presents quantitative method of numerical measurements involved in a chemical reaction.
this involves quantities such as the measures of mass in grams and the amount of substance in moles.
I am hoping that this material will help to make the concept easier.
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2. Equations are the recipes that tell chemists what amounts of reactants to mix and what amounts of products to expect. You can determine the quantities of reactants and products in a reaction from the balanced equation. When you know the quantity of one substance in a reaction, you can calculate the quantity of any other substance consumed or created in the reaction. (Quantity usually means the amount of a substance expressed in grams or moles. But quantity could just as well be in liters, tons, or molecules.) The calculation of quantities in chemical reactions is a subject of chemistry called stoichiometry .
3. Calculations using balanced equations are called stoichiometric calculations . For chemists, stoichiometry is a form of bookkeeping.
4. INTERPRETING CHEMICAL EQUATIONS As you may recall, ammonia is widely used as a fertilizer. Ammonia is produced industrially by the reaction of nitrogen with hydrogen. What kinds of information can be derived from this equation? N 2 ( g ) + 3H 2 ( g ) 2NH 3 ( g )
5. Do you see that mass and atoms are conserved in this chemical reaction? Mass and atoms are conserved in every chemical reaction. The mass of the reactants equals the mass of the products. The number of atoms of each reactant equals the number of atoms for that reactant in the product(s). Unlike mass and atoms, however, molecules, formula units, moles and volumes of gases will not necessarily be conserved - although they may be. Only mass and atoms are conserved in every chemical reaction.
8. The mole ratios are used to calculate the number of moles of product from a given number of moles of reactant or to calculate the number of moles of reactant from a given number of moles of product. Three of the mole ratios for this equation are 1 mol N 2 2 mol NH 3 3 mol H 2 3 mol H 2 1 mol N 2 2 mol NH 3
9. In the mole ratio below, W is the unknown quantity. The value of a and b are the coefficients from the balanced equation. Thus a general solution for a mole-mole problem is given by Given Mole ratio Calculated x mol G x = mol W b mol W xb a mol G a From balanced equation
10. Using the ammonia reaction, answer the following question. How many moles of ammonia are produced when 0.60 mol of nitrogen reacts with hydrogen? 0.60 mol N 2 x = 1.20 mol NH 3 Given Mole Ratio 2 mol NH 3 1 mol N 2
11. MASS-MOLES CALCULATIONS Balances don’t tell you numbers in moles but in grams. As such, there are two related stoichiometry calculations: Moles - Mass & Mass - Moles
12. In a mole-mass problem you are asked to calculate the mass (usually in grams) of a substance that will react with or be produced from a given number of moles of a second substance. (If, in an example, you are told something in is excess, just ignore that substance and solve the problem with the needed substances.) moles A moles B mass B moles A x mole ratio of x molar mass of B B A
13. Example: Plants use carbon dioxide and water to form glucose (C 6 H 12 O 6 ) and oxygen. What mass, in grams, of glucose is produced when 3.00 mol of water react with carbon dioxide? Answer: 1. Write the balanced equation 6CO 2 (g) + 6H 2 O(l) -> C 6 H 12 O 6 (s) + 6O 2 (g)
14. 2. Determine what you need to find/know. Unknown: mass of C 6 H 12 O 6 produced Given: amount of H 2 O = 3.00 mol = grams C 6 H 12 O 6 3. Determine conversion factors moles H 2 O x x moles C 6 H 12 O 6 moles H 2 O grams C 6 H 12 O 6 1 mole C 6 H 12 O 6
15. 4. Solve 3.00 moles H 2 O x x = 90.0 g C 6 H 12 O 6 1 mol C 6 H 12 O 6 6 moles H 2 O 180 g C 6 H 12 O 6 1 mole C 6 H 12 O 6
16. In a mass-mole problem you are asked to calculate the moles of a substance that will react with or be produced from a given number of grams of a second substance. mass A moles A moles B 1 mole A molar mass A mass A x x mole ratio B A
17. Worksheet questions Mol mass mol A mol B mass B 75.0 mol C 7 H 6 O 3 = 13500 g C 9 H 8 O 4 = 13.5 kg C 9 H 8 O 4 x 1 mol C 9 H 8 O 4 1 mol C 7 H 6 O 3 180 g C 9 H 8 O 4 1 mol C 9 H 8 O 4 x x 1 kg 1000 g
18.
19. If the given sample is measured in grams, the mass can be converted to moles by using the molar mass Then the mole ratio from the balanced equation can be used to calculate the number of moles of the unknown If it is the mass of the unknown that needs to be determined, the number of moles of the unknown can be multiplied by the molar mass. As in mole-mole calculations, the unknown can be either a reactant or a product
20. Mass-mass problems can be solved in basically the same way as mole-mole problems. 1. The mass G is changed to moles of G (mass G mol G) by using the molar mass of G. Mass G X = mol G 2. The moles of G are changed to moles of W (mol G mol W ) by using the mole ratio from the balanced equation. Mol G X = mol W 1 mol G molar mass G b mol W a mol G 3. The moles of W are changed to grams of W (mol W mass W )
21. mass A x x x mole ratio molar mass of A molar mass of B given 1 mole A grams A moles B moles A grams B 1 mole B The route for solving mass-mass problems is: mass A moles A moles B mass B
22. Example: Calculate the number of grams of NH 3 produced by the reaction of 5.40 g of hydrogen with an excess of nitrogen. 2. Write what you know: Unknown: g NH 3 ; g H 2 -> g NH 3 Given: 5.40 g H 2 Solution: 1. Write the balanced equation N 2 + 3H 2 2NH 3
23. 4. Solve 5.40 g H 2 x x x given = 30.6 g NH 3 changes given to moles mole ratio change moles of wanted to grams 3. Determine conversion factors g H 2 mol H 2 mol NH 3 g NH 3 1 mol H 2 2.00 g H 2 2 mol NH 3 3 mol H 2 17.0 g NH 3 1 mol NH 3
24. Practice Problems 5.00 g CaC 2 x x x = 2.03 g C 2 H 2 1 mole CaC 2 64.1 g CaC 2 1 mole C 2 H 2 1 mole CaC 2 26.0 g C 2 H 2 1 mole C 2 H 2
25. Worksheet questions a. 384 g O 2 = 1104 g NO 2 = 1.10x10 3 g NO 2 given Molar mass A Mole ratio Molar mass B x 1 mol O 2 32.0g O 2 x 2 mol NO 2 1 mol O 2 x 46.0g NO 2 1 mol NO 2
26. OTHER STOICHIOMETRIC CALCULATIONS As you already know, a balanced equation indicates the relative number of moles of reactants and products. From this foundation, stoichiometric calculations can be expanded to include any unit of measurement that is related to the mole. The given quantity can be expressed in number of representative particles, units of mass, or volumes of gases at STP.
27. The following equation summarizes these steps for a typical stoichiometric problem aG bW (given quantity) (wanted quantity)
28.
29. Using the ammonia reaction equation, determine the number of liters of ammonia that can be produced from 5 grams of nitrogen at STP. 5.00g N 2 x x x =? N 2 + 3H 2 2NH 3 1 mole N 2 28.0g N 2 2 mole NH 3 1 mole N 2 22.4 L NH 3 1 mole NH 3
30. PERCENT YIELD When an equation is used to calculate the amount of product that will form during a reaction, a value representing the theoretical yield is obtained. The theoretical yield is the maximum amount of product that could be formed from given amounts of reactants. In contrast, the amount of product that actually forms when the reaction is carried out in the laboratory is called the actual yield . The actual yield is often less than the theoretical yield.
31. The percent yield is the ratio of the actual yield to the theoretical yield expressed as a percent. The percent yield measures the efficiency of the reaction. A percent yield should not normally be larger than 100%. Many factors can cause percent yields to be less than 100%. Percent yield = x 100 actual yield theoretical yield
32. Example: Calcium carbonate is decomposed by heating, as shown in the following equation. CaCO 3 (s) CaO(s) + CO 2 (g) a. what is the theoretical yield of CaO if 24.8 g of CaCO 3 is heated? b. What is the percent yield if 13.1 g CaO is produced?
33. Solution: 1. List the knowns and unknowns in a. known: mass of CaCO 3 = 24.8 g 1 mol CaCO 3 = 1 mol CaO (from balanced equation) 1 mol CaCO 3 = 100 g (molar mass) 1 mol CaO = 56.1 g (molar mass) unknown: theoretical yield of CaO = ? g CaO
34. 2. Solve for the unknown. 24.8 g CaCO 3 x x x given amount molar mass mole ratio molar mass = 13.9 g CaO Again, this is the theoretical yield, the amount you would make if the reaction were 100% accurate. 1 mol CaCO 3 100 g CaCO 3 1 mol CaO 1 mol CaCO 3 56.1 g CaO 1 mol CaO
35. 3. Determine % yield for b. actual yield = 13.1 g CaO theoretical yield = 13.9 g CaO Percent yield = x 100 actual yield theoretical yield Percent yield = x 100 = 94.2% 13.1 g CaO 13.9 g CaO