Stoichiometry Ratios The stoichiometric coefficients in a balanced chemical reaction can be used to determine the mole relationships between any combination.

Slides:

Advertisements

Similar presentations

Advertisements

Stoichiometry (Yay!).

Chapter 11 “Stoichiometry”

Chapter 12 “Stoichiometry”

Chapter 12 “Stoichiometry” Chemistry Tutorial Stoichiometry Mr. Mole.

Limiting Reactants and Percent Yield

II. Stoichiometry in the Real World Limiting Reagents and % yield (p ) Stoichiometry – Ch. 12.

Stoichiometry Chapter 12.

Chapter 9 Combining Reactions and Mole Calculations.

Mathematics of Chemical Equations By using “mole to mole” conversions and balanced equations, we can calculate the exact amounts of substances that will.

Chapter 9 Pages Proportional Relationships u I have 5 eggs. How many cookies can I make? 3/4 c. brown sugar 1 tsp vanilla extract 2 eggs 2.

Chapter 9 Combining Reactions and Mole Calculations.

Section “Limiting” Reagent

Section 3 Section 3 – Part 1  Determine the limiting reagent in a reaction  Calculate the amount of product formed in a reaction, based on the limiting.

Limiting Reactants and Excess

Starter S moles NaC 2 H 3 O 2 are used in a reaction. How many grams is that?

Chapter 12 Stoichiometry

Limiting Reactant and Percent Yield Limiting Reagent u If you are given one dozen loaves of bread, a gallon of mustard and three pieces of salami, how.

Chapter 9 Stoichiometry

Greek for “measuring elements” The calculations of quantities in chemical reactions based on a balanced equation.

Mole Ratios Limiting Reagent % Yield Gas Stoichiometry

Chemical Quantities – Ch. 9.

Limiting Reagent u The limiting reagent is the reactant you run out of first. u The excess reagent is the one you have left over. u The limiting reagent.

“Stoichiometry” Original slides by Stephen L. Cotton Mr. Mole.

Chapter 12 Stoichiometry

Review: Mole Conversions: Convert 3 mols Oxygen to grams: Convert 42 grams Chlorine to mols: What is % composition? What is the %comp of magnesium in magnesium.

Chapter 12 Stoichiometry Mr. Mole. Molar Mass of Compounds Molar mass (MM) of a compound - determined by up the atomic masses of – Ex. Molar mass of CaCl.

Chapter 12 Stoichiometry. Another Analogy: (let’s get off the bike for a while and bake a cake!)  Let’s say you want to bake a cake. Here’s a recipe:

Chemical Calculations

Chapter 12 “Stoichiometry” Chemistry Chemistry Pioneer High School Mr. David Norton.

HW Questions: Reviewed: S.I, Measurement, Acc, Prec., Uncertainty, S.F Added Uncertainty Propagation: +/-: x/divide: Exponents: Added types of error (random/systematic)

Stoichiometry – “Fun With Ratios” Main Idea: The coefficients from the balanced equation tell the ratios between reactants and products. This ratio applies.

Stoichiometric Calculations Stoichiometry – Ch. 9.

Stoichiometry. Information Given by the Chemical Equation  The coefficients in the balanced chemical equation show the molecules and mole ratio of the.

Starter S moles of Iron (III) Hydroxide are used in a reaction. How many grams is that?

I. I.Stoichiometric Calculations Topic 9 Stoichiometry Topic 9 Stoichiometry.

Limiting Reagents & Percent Yield Chapter 9 Notes Part III.

Recall: A limiting reagent is the reactant whose entities are completely consumed in a reaction. It is the one that runs out first, and as a result, stops.

II. Stoichiometry in the Real World Stoichiometry.

I. I.Stoichiometric Calculations Topic 6 Stoichiometry Topic 6 Stoichiometry.

Unit 8 Review Stoichiometry Complete on Markerboard or in your notes.

Chapter 12 “Stoichiometry” Mr. Mole. Stoichiometry is… u Greek for “measuring elements” Pronounced “stoy kee ahm uh tree” u Defined as: calculations of.

Reaction Stoichiometry. Objectives Understand the concept of stoichiometry. Be able to make mass-to-mass stoichiometric calculations.

Stoichiometry Interpreting Balanced Equations

Stoichiometry Warmup I have 1 mole of CO 2 gas at STP. How many grams of CO 2 do I have? How many Liters of CO 2 do I have? How many molecules of CO 2.

Limiting Reactants and Excess What is the Limiting Reagent (Reactant)? It is the substance in a chemical reaction that runs out first. The limiting reactant.

Limiting Reagents and Percent Yield Limiting Reagent If you are given one dozen loaves of bread, a gallon of mustard and three pieces of salami, how.

Chapter 12 “Stoichiometry” Pre-AP Chemistry Charles Page High School Stephen L. Cotton Mr. Mole.

I. I.Stoichiometric Calculations Stoichiometry – Ch. 10.

Imagine you are baking chocolate chip cookie s What materials do you need?

Limiting Reactants, Theoretical Yield, and % Yield.

Jeopardy $100 Stoich Vocab Stoich Calculations Stoich True/False Percent Yield Limiting Reactants $200 $300 $400 $500 $400 $300 $200 $100 $500 $400 $300.

TOPIC 17: INTRO TO STOICHIOMETRY EQ: EQ: How does a balanced chemical equation help you predict the number of moles and masses of reactants and products?

Unit 8 Review Stoichiometry. 1. Describe how a chemist uses stoichiometry? To determine the amount of reactants needed or products formed based on the.

Stoichiometry – Ch What would be produced if two pieces of bread and a slice of salami reacted together? + ?

Unit 6: Limiting Reactants and Percent Yield Chapter 11.3 and 11.4.

Stoichiometry Pronounced: Stoy-kee-AHM-uh-tree. What is stoichiometry? Its math that helps us to see the relationship between what is used and formed.

Let’s look at the butane reaction once more: 2C 4 H O 2 → 8CO H 2 O What do the coefficients represent? Stoichiometry is the use of these.

“Stoichiometry” Original slides by Stephen L. Cotton and modified by Roth, Prasad and Coglon Mr. Mole.

II. Stoichiometry in the Real World

Unit 8: Stoichiometry: Part 1

“Stoichiometry” Mr. Mole.

Chapter 12 “Stoichiometry”

Chapter 11 “Stoichiometry”

Unit 4: Chemical Equations and Stoichiometry

Unit 4: Chemical Equations and Stoichiometry

Limiting Reagent If you are given one dozen loaves of bread, a gallon of mustard and three pieces of salami, how many salami sandwiches can you make? The.

Reaction Stoichiometry

Presentation transcript:

Stoichiometry Ratios The stoichiometric coefficients in a balanced chemical reaction can be used to determine the mole relationships between any combination of the reactants and/or products. The types of ratios are: – Mole-Mole – Mass-Mole – Mass-Mass – Mass-Volume (at STP) – Volume - Volume (at STP)

Stoichiometry Practice Write the balanced equation for nitrogen reacts with hydrogen to produce ammonia gas. Write the balanced equation for nitrogen reacts with hydrogen to produce ammonia gas. A) If 1.47g of nitrogen reacts with an excess of hydrogen, how many grams of NH 3 are produced? A) If 1.47g of nitrogen reacts with an excess of hydrogen, how many grams of NH 3 are produced? B) How many grams of nitrogen would be required to produce 14.7 g NH 3 ? C) If 1.34 L of hydrogen reacted with an excess of nitrogen, how many liters of ammonia would be produced? If 18.5 g of silver nitrate reacts with an excess of sulfuric acid, how many grams of solid silver sulfate would be produced? If 18.5 g of silver nitrate reacts with an excess of sulfuric acid, how many grams of solid silver sulfate would be produced?

Percent Yield No chemical reaction is 100% efficient. No chemical reaction is 100% efficient. the amount of product produced is effected by impurities, side reactions, etc. the amount of product produced is effected by impurities, side reactions, etc. Theoretical yield is the maximum amount of product that can be produced. Theoretical yield is the maximum amount of product that can be produced. determined from stoich. problem determined from stoich. problem Actual yield is the amount of product produced. Actual yield is the amount of product produced. Percent Yield = Actual Yield Theoretical Yield X 100

Percent Yield Practice From the last example that you worked, if only 11.8 g Ag 2 SO 4 are actually produced, what is the percent yield? From the last example that you worked, if only 11.8 g Ag 2 SO 4 are actually produced, what is the percent yield?

Limiting Reagent In almost all chemical reactions, one of the reactants will run out first and limit how much product can be produced. The reactant that runs out first is the Limiting Reagent. In almost all chemical reactions, one of the reactants will run out first and limit how much product can be produced. The reactant that runs out first is the Limiting Reagent. Imagine you were making peanut butter and jelly sandwiches. You have 5 gallons of peanut butter, 5 gallons of jelly and 4 pieces of bread. How many sandwiches can you make? Imagine you were making peanut butter and jelly sandwiches. You have 5 gallons of peanut butter, 5 gallons of jelly and 4 pieces of bread. How many sandwiches can you make? Only 2. After making 2 sandwiches you still have plenty of the other ingredients, but you run out of bread. So the bread is the Limiting Reagent. Only 2. After making 2 sandwiches you still have plenty of the other ingredients, but you run out of bread. So the bread is the Limiting Reagent. When you don’t know which reactant is in excess, you use each reactant to calculate the moles of product it would produce. Whichever produces the least product is the limiting reagent and you always use this lesser amount of product to calculate the theoretical yield. When you don’t know which reactant is in excess, you use each reactant to calculate the moles of product it would produce. Whichever produces the least product is the limiting reagent and you always use this lesser amount of product to calculate the theoretical yield.

Limiting Reagent Think back to the example of hydrogen and nitrogen producing ammonia. Think back to the example of hydrogen and nitrogen producing ammonia. 3H 2 (g) + 1N 2 (g)  2NH 3 (g) If 12.1 g of nitrogen reacts with 10.4 g of hydrogen, how many grams of ammonia should be produced? If 12.1 g of nitrogen reacts with 10.4 g of hydrogen, how many grams of ammonia should be produced? 12.1 g N 2 1 mol N g N 2 x 2 mol NH 3 1 mol N 2 =0.864 mol NH 3 x 10.4 g H 2 x 1 mol H g H 2 x 2 mol NH 3 3 mol H 2 =3.43 mol NH mol NH 3 x g NH 3 1 mol NH 3 =14.7 g NH 3

Amount of Excess Left Over From the previous problem, how many g of the H 2 (g) is left over when the reaction is complete? From the previous problem, how many g of the H 2 (g) is left over when the reaction is complete? Subtract the theoretical yield (in moles) of the LR from the theoretical yield of the ER Subtract the theoretical yield (in moles) of the LR from the theoretical yield of the ER 3.43 mol mol = 2.57 mol Now work backward from there to get the mass of H 2 : Now work backward from there to get the mass of H 2 : 2.57 mol NH 3 x 3 mol H 2 x 2.02g H 2 = 7.79g H 2 2 mol NH 3 1 mol H 2 2 mol NH 3 1 mol H 2 If the problem had asked for excess L what would you do differently? 3H 2 (g) + 1N 2 (g)  2NH 3 (g)

The Grand Daddy of Them All!!! What is the percent yield if 12.7 g of copper (II) nitrate react with 6.11 g of sodium hydroxide and 4.70 g of solid copper (II) hydroxide are produced 12.7 g Cu(NO 3 ) 2 x 1 mol Cu(NO 3 ) g Cu(NO 3 ) 2 x 1 mol Cu(OH) 2 1 mol Cu(NO 3 ) 2 = mol Cu(OH) g NaOHx 1 mol NaOH g NaOH x 1 mol Cu(OH) 2 2 mol NaOH = mol Cu(OH) 2 LR = Cu(NO 3 ) 2 and it yields.0677 mol Cu (OH) 2 Cu(NO 3 ) 2 (aq) + 2 NaOH(aq)  Cu(OH) 2 (s) + 2 NaNO 3 (aq)

Continued! mol Cu(OH) 2 x g Cu(OH) 2 1 mol Cu(OH) 2 =6.61 g Cu(OH) 2 Percent Yield =x =71.1% How much of the excess reagent is left over (in grams)? mol mol mol Cu(OH) 2 x 2 mol NaOH 1 mol Cu(OH) 2 x g NaOH 1 mol NaOH = 0.70 g NaOH left over