Entry Task: March 13-14 th Block 2. Agenda: Discuss Limited and % yield ws Self Check on Limited reactant & % yields.

Slides:

Advertisements

Similar presentations

Chemistry Daily 10’s Week 14.

Advertisements

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

Stoichiometric Calculations

Theoretical and Percent Yield

Limiting Reactants & Percent Yield

Stoichiometry What do I get when I have????.

Chapter 9 - Section 3 Suggested Reading: Pages

HONORS CHEMISTRY Feb 27, Brain Teaser Cu + 2 AgNO 3  2 Ag + Cu(NO 3 ) 2 – How many moles of silver are produced when 25 grams of silver nitrate.

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

CHEMISTRY February 13, 2012.

Chemistry 12.3 “Limiting Reagent and Percent Yield”

Stoichiometry Chapter 9. Stoichiometry Def: study of mass relationships in chemical reactions Def: study of mass relationships in chemical reactions 1.

Laboratory 08 LIMITING REACTANT LAB.

Limiting Reactants and Percent Yields

Limiting Reactants and Excess

Limiting Reactants & Percent Yield

Limiting Reagents and Percent Yield

Review Answers with step-by-step examples

Calculate the percent compostion of Sodium Sulfate.

Stoichiometry. The quantitative relationship between the products and reactants in a chemical equation. Compare reactants to products, products to products,

Solubility Rules.

Entry Task: March 13 th- 14 th Block 1 Entry task question: Question: 1.5 grams of zinc was added with 0.5 grams of iodine to produce zinc II iodide. Calculate.

The general steps for finding PERCENT YIELD : * Write the balanced chemical equation * Find the limiting reactant * Find the theoretical yield (what you.

Yield: the amount of product Theoretical yield: the amount of product we expect, based on stoichiometric calculations Actual yield: amount of product.

Drill: How many atoms are in 2.5 kg C 2 H 4 O 2 ?.

Chapter 12 Stoichiometry The study of the quantitative, or measurable, relationships that exist in chemical formulas and chemical reactions.Stoichiometry.

Chapter 3 - Stoichiometry It is important to be able to quantify the amount of reagent(s) that will be needed to produce a given amount of product(s).

Stoichiometry Chapter 9. Step 1 Balance equations and calculate Formula Mass (FM) for each reactant and product. Example: Tin (II) fluoride, SnF 2, is.

STOICHIOMETRY REVIEW ANSWERS

Drill: CaCl 2 + F 2  CaCl 2 + Na  CaCl 2 + KNO 3  CaCl 2 + K 2 SO 4 

Information Review Have out a scratch piece of paper and a pencil.

Unit 7 Stoichiometry Chapter 12.

II. Stoichiometry in the Real World Stoichiometry.

Entry Task: March 18 th Monday Sign off on Ch review sheet.

Stoichiometry A chemical equation shows the reactants (left side) and products (right side) in a chemical reaction. A balanced equation shows, in terms.

Limiting reagents In lab a reaction is rarely carried out with exactly the required amounts of each reactant. In lab a reaction is rarely carried out with.

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.

Starter Complete the starter for ten Learning outcomes Describe the atom economy of a chemical reaction State how an equation is used to calculate an.

MAYHAN Ch. 10/12 Moles to % yield Review ws DEFINE MOLE. MAYHAN HOW IS THE MOLE USED IN CHEMISTRY? A mole is 6.02 x “things” These things are any.

Actual and Percent Yields So far when we have been talking about reactions we have been talking about 100% of the (limiting) reactant becoming a product.

Entry Task: March 5 th -6 th Block #1 Entry Task Question: 2Mg + O 2  2MgO How many grams of Mg are needed to produce 35 moles of MgO? You have ~10 minutes.

16.1 Properties of Solutions > 1 Copyright © Pearson Education, Inc., or its affiliates. All Rights Reserved. 1. Calculate and record your % grade. Test.

Another Practice Problem. You walk into a room and find two chemical bottles open and sitting out. One contains lead (II) nitrate and the other potassium.

KNOW HOW TO Percent error Percent yield Stoich Definitions T.Y LR STP Scenarios about pressure, volume, temperature Convert C to K and vise versa Lab Data.

Stoichiometry Chapter 9 Percent Yield Stoich ppt _5 Percent Yield.

Minds On… The reaction of potassium tetrachloroplatinate II (K 2 PtCl 4 ) with potassium iodide (KI) is used to make the cancer drug Cisplatin. Given that.

Ch. 9-3 Limiting Reactants & Percent Yield. POINT > Define limiting reactant POINT > Identify which reactant is limiting in a reaction POINT > Define.

Molecular Formulas. 2 A molecular formula is equal or a multiple of its empirical formula has a molar mass that is the product of the empirical formula.

Entry Task: March 11 th Monday Entry task question: 2AgCl + Mg  MgCl 2 + 2Ag Question: How many grams of silver can be produced if grams of magnesium.

16.1 Properties of Solutions > 1 Copyright © Pearson Education, Inc., or its affiliates. All Rights Reserved. 1. Calculate and record your % grade. Test.

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.

Stoichiometry Chapter 11.

Today’s Agenda Bellwork Introduction to Stoichiometry Mole Ratio Notes

Chapter 9 STOICHIOMETRY

II. Stoichiometry in the Real World

Creating a Positive Learning Environment for Everyone

Chapter 12 Review.

Chapter 12 Review.

Agenda: 1/13/2017 Go over the procedure for the Molarity Lab

Limiting and Excess Reactants

Clicker #1 When lead(II) nitrate and potassium iodide are mixed, what precipitate will form? Pb(NO3)2(aq) + KI(aq) → A) KNO3 B) KI C) Pb(NO3)2 D) PbI2.

Mathematics of Chemical Equations

Stoichiometry What do I get when I have????.

4 steps Balance equations Get to moles of what you are given

Limiting Reactants If the amounts of two reactants are given, the reactant used up first determines the amount of product formed. 22.

Chapter 11: Stoichiometry

Yield-noun: Performance, production, product. Harvest, crop.

Presentation transcript:

Entry Task: March th Block 2

Agenda: Discuss Limited and % yield ws Self Check on Limited reactant & % yields

I can… Use the sequence of steps used in solving stoichiometric problems Identify the limiting reactant in a chemical equation Identify the excess reactant and calculate the amount remaining after the reaction is complete. Calculate the mass of a product when the amounts of more that one reactant are given Calculate the theoretical yield of a chemical reaction from data. Determine the percent yield for a chemical reaction.

Limited reactants % yields practice

A reaction of 25 grams of sodium bromide with 20.0 grams of potassium chloride creates sodium chloride and potassium bromide. How much sodium chloride would be produced (theoretically)? Identify the limited reactant, the amount of excess in this reaction. ___NaBr + ___KCl  ___KBr + ___NaCl

A reaction of 25 grams of sodium bromide with 20.0 grams of potassium chloride creates sodium chloride and potassium bromide. How much sodium chloride would be produced (theoretically)? Identify the limited reactant, the amount of excess in this reaction g NaBr 14 g NaCl 103 g NaBr 1 mole NaBr 58.4 g NaCl 1 mol NaCl 1 mole NaBr 1 mol NaCl 20 g KCl 15.6 g NaCl 74.5g KCl 1 mole KCl58.4 g NaCl 1 mole NaCl 1 mole KCl 1 mole NaCl

Which reactant is Limited and which reactant is Excess? Limited = NaBr Excess = KCl ___NaBr + ___KCl  ___KBr + ___NaCl 25.0 g NaBr 14 g NaCl 103 g NaBr 1 mole NaBr 58.4 g NaCl 1 mol NaCl 1 mole NaBr 1 mol NaCl 20 g KCl 15.6 g NaCl 74.5g KCl 1 mole KCl58.4 g NaCl 1 mole NaCl 1 mole KCl 1 mole NaCl

A reaction of 25 grams of sodium bromide with 20.0 grams of potassium chloride creates sodium chloride and potassium bromide. How much sodium chloride would be produced (theoretically)? Identify the limited reactant, the amount of excess in this reaction. Start with the limited reactant!! Used In reaction 20 grams KCl minus 18 g KCl = Given Used In reaction 2 g EXCESS KCl ___NaBr + ___KCl  ___KBr + ___NaCl 25.0 g NaBr 18 g KCl 103 g NaBr 1 mole NaBr 74.5g KCl 1 mole KCl 1 mole N aBr 1 mole KCl

Percent Yield= Actual yield (from experiment) Theoretical yield (from stoich calculation) X 100 If 12 grams of sodium chloride were produced after the reaction, what is the % yield? Percent Yield= 12 g (from experiment) 14 g (from stoich calculation-limit reactant) X %

___NaBr + ___KCl  ___KBr + ___NaCl With the same reaction, what if 50.0 grams of sodium bromide reacted with 75.0 grams of potassium chloride. How much sodium chloride would be produced (theoretically)? Identify the limited reactant, the amount of excess in this reaction g NaBr 28.3 g NaCl 103 g NaBr 1 mole NaBr 58.4 g NaCl 1 mol NaCl 1 mole NaBr 1 mol NaCl 25.0 g KCl 19.6 g NaCl 74.5g KCl 1 mole KCl58.4 g NaCl 1 mole NaCl 1 mole KCl 1 mole NaCl

Which reactant is Limited and which reactant is Excess? Limited = KCl Excess = NaBr ___NaBr + ___KCl  ___KBr + ___NaCl 50.0 g NaBr 28.3 g NaCl 103 g NaBr 1 mole NaBr 58.4 g NaCl 1 mol NaCl 1 mole NaBr 1 mol NaCl 25.0 g KCl 19.6 g NaCl 74.5g KCl 1 mole KCl58.4 g NaCl 1 mole NaCl 1 mole KCl 1 mole NaCl

With the same reaction, what if 50.0 grams of sodium bromide reacted with 25.0 grams of potassium chloride. How much sodium chloride would be produced (theoretically)? Identify the limited reactant, the amount of excess in this reaction. Start with the limited reactant!! Used In reaction 50.0 grams NaBr minus 34.6 g NaBr = Given Used In reaction 15.4 g EXCESS NaBr ___NaBr + ___KCl  ___KBr + ___NaCl 25.0 g KCl 34.6 g NaBr 74.5g KCl 1 mole KCl103 g NaBr 1 mole NaBr 1 mole KCl 1 mole NaBr

Percent Yield= Actual yield (from experiment) Theoretical yield (from stoich calculation) X 100 If 14 grams of sodium chloride were produced after the reaction, what is the % yield? Percent Yield= 14 g (from experiment) 19.6 g (from stoich calculation-limit reactant) X %

25 grams of lead II iodide reacts with potassium nitrate to create lead II nitrate and potassium iodide. ___Pb I 2 + ___KNO 3  ___Pb(NO 3 ) 2 + ___K I 22

___Pb I 2 + _2_KNO 3  ___Pb(NO 3 ) 2 + _2_K I 1. How much potassium nitrate is needed if 25 grams of lead II iodide were used in the reaction? 25.0 g Pb I g KNO g Pb I 2 1 mole Pb I g KNO 3 1 mol KNO 3 1 mole Pb I 2 2 mol KNO 3 I needed to find out how much of the OTHER reactant I need to complete this reaction. Compare reactant to reactant !!

___Pb I 2 + _2_KNO 3  ___Pb(NO 3 ) 2 + _2_K I 2. How much potassium iodide was produced from the reaction with 25 grams of lead II iodide used? 25.0 g Pb I g K I 461 g Pb I 2 1 mole Pb I g K I 1 mol K I 1 mole Pb I 2 2 mol K I Now I’m finding out how much product- KI is produced with my 25 grams of PbI 2. Compare reactant to product !!

___Pb I 2 + _2_KNO 3  ___Pb(NO 3 ) 2 + _2_K I 3. Using the amount of potassium nitrate, how much potassium iodide would be produced? 11.0 g KNO g K I 101 g KNO 3 1 mole KNO g K I 1 mol K I 2 mole KNO 3 2 mol K I NOW I’m using the other reactant KNO 3 amount that we figured out from the ratio with PbI 2. Compare reactant to reactant !!

___Pb I 2 + _2_KNO 3  ___Pb(NO 3 ) 2 + _2_K I 4. What can you deduce from your answers from 2 and 3? 11.0 g KNO g K I 101 g KNO 3 1 mole KNO g K I 1 mol K I 2 mole KNO 3 2 mol K I 25.0 g Pb I g K I 461 g Pb I 2 1 mole Pb I g K I 1 mol K I 1 mole Pb I 2 2 mol K I By reacting 25 g of Pb I 2 and 11 g of KNO 3, you will produce 18 g of K I NO WASTE!!.

___Pb I 2 + _2_KNO 3  ___Pb(NO 3 ) 2 + _2_K I 5. What if I need 100 grams of potassium nitrate to be produced? How much of each reactant would be needed to complete this reaction? Work backwards 100 g KNO g KI 101 g KNO 3 1 mol KNO g KI 1 mol KI 2 mol KNO 3 2 mol KI 100 g KNO g Pb(NO 3 ) g KNO 3 1 mol KNO g Pb(NO 3 ) 2 1 mole Pb(NO 3 ) 2 2 mol KNO 3 1 mole Pb(NO 3 ) 2 LETS CHECK OUR WORK!!!

___Pb I 2 + _2_KNO 3  ___Pb(NO 3 ) 2 + _2_K I 5. What if I need 100 grams of potassium nitrate to be produced? How much of each reactant would be needed to complete this reaction? Work backwards 164 g KI g KNO g KI 1 mol KI g KNO 3 1 mol KNO 3 2 mol KI 2 mol KNO g Pb(NO 3 ) 2 100g KNO g Pb(NO 3 ) 2 1 mol Pb(NO 3 ) g KNO 3 1 mole KNO 3 1 mol Pb(NO 3 ) 2 2 mole KNO 3