Peanut Butter and Jelly Lab

Slides:

Advertisements

Similar presentations

Quantitative and Scientific Reasoning Standard n Students must demonstrate the math skills needed to enter the working world right out of high school or.

Advertisements

1 Chapter 8 Chemical Quantities in Reactions 8.3 Limiting Reactants Copyright © 2008 by Pearson Education, Inc. Publishing as Benjamin Cummings.

Stoichiometry Continued…

II. Stoichiometry in the Real World (p ) Stoichiometry – Ch. 9.

11.3 Limiting Reactants.

Chapter 10 Chemical Quantities in Reactions. Chapter 10 Slide 2 of 42 Mole Relationships in Chemical Equations Copyright © 2008 by Pearson Education,

Limiting Reactants and Percent Yield

General, Organic, and Biological Chemistry Fourth Edition Karen Timberlake 6.8 Percent Yield and Limiting Reactants Chapter 6 Chemical Reactions and Quantities.

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

Chapter 9 - Section 3 Suggested Reading: Pages

Stoichiometric Calculations (p )

Hayeon Jun Stoichiometry Limiting and Excess Reactant.

Limiting/Excess Reactants and Percent Yield

Section 9.1 Using Chemical Equations 1.To understand the information given in a balanced equation 2.To use a balanced equation to determine relationships.

OCTOBER 29 & MS. BOON CHEMISTRY Stoichiometry 6.

Unit 9 Stoichiometry Chemistry I Mr. Patel SWHS. Topic Outline MUST have a scientific calculator (not graphing)!!! Stoichiometry (12.1) Mole to Mole Stoichiometry.

General, Organic, and Biological Chemistry Copyright © 2010 Pearson Education, Inc. 1 Chapter 6 Chemical Reactions and Quantities 6.8 Percent Yield and.

STOICHIOMETRY OISE Senior Chemistry AQ Concept Presentation – November 9, 2011 Presented by Wendy Louis.

WRITING THE LABORATORY REPORT Human Physiology Adapted from Roanoak labs.

1) Half Sheet: Write 3 things that you know about this image, 3 things you somewhat know, and 3 things you are having a difficult time with 2) Worksheet.

Introduction This section provides information that helps the reader understand what you accomplished, the science behind it and.

*Notice, kind of like the opposite of Percent Error.

DCI Stoichiometry An atom of R weighs 1 mass unit (mu), G weighs 3 mass units (mu) and B weighs 2 mass units (mu). i) the mass of BG would be: ____mu.

Chapter 9 Stoichiometry. Definition of “Stoichiometry”: the mathematics of chemical equations Important Concepts: 1. You MUST have a balanced equation!

Stoichiometric Calculations Start Your Book Problems NOW!! Stoichiometry.

CANDLE LAB Warm Ups, etc. Students of different ages were given the same puzzle to assemble. The puzzle assembly time was measured. Independent Variable.

STOICHIOMETRY: ‘Quantities in Chemical Reactions’ OISE Senior Chemistry AQ Concept Presentation – November 9, 2011 Presented by Wendy Louis.

UNIT 6: STOICHIOMETRY PART 2: STOICHIOMETRY. KEY TERMS Actual yield - Amount of product was actually made in a reaction Dimensional analysis - The practice.

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

Percent Yield Lab Review Common Mistakes and Tips for Improvement

Tips for Writing Lab Reports

Chapter 9 Chemical Quantities in Reactions. Mole Relationships in Chemical Equations Copyright © 2008 by Pearson Education, Inc. Publishing as Benjamin.

C. Johannesson II. Stoichiometry in the Real World (p ) Stoichiometry – Ch. 9.

II. Limiting Reactants Stoichiometry – 3.7. A. Limiting Reactants b Available Ingredients 4 slices of bread 1 jar of peanut butter 1/2 jar of jelly b.

II. Stoichiometry in the Real World Stoichiometry – Ch. 11.

Chapter12 Stoichiometry. I. What is Stoichiometry? The study of quantitative relationships between amounts of reactants used and products formed by a.

How to Make a Peanut Butter and Jelly Sandwich Presented by: Andrew Stockmoe Project 5: How to Make a PB & J Sandwich 5/3/12.

Writing A Physics Laboratory Report 6 sections Each section should be clearly titled in your personal lab report: Abstract Planning A Planning B Data.

Chapter 12 Stoichiometry. 1. The part of chemistry that deals with the amount of substances involved in chemical reactions A. 3 basic steps to every stoichiometry.

Percent Yield & Limiting Reactant Chemistry. Percent Yield.

II. Stoichiometry in the Real World Stoichiometry.

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

Stoichio-What?? Chemistry January +. Stoichio-WHAT? Objectives To determine the mass of copper formed in a reaction. To use this information to decide.

Stoichiometry Section 1 – Introduction to Stoichiometry, and Quantitative Relationships of Chemical Formulas Section 2 – Mathematics of Chemical Equations.

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

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

Science Fair Project Type your project title here Your name Your teacher’s name Your school.

Stoichiometry Notes. Stoichiometry branch of chemistry that deals with the mass relationships of elements in compounds and the mass relationships between.

STOICHIOMETRY REACTION YIELD. Raider Rev-up: When H 2 reacts with O 2 to make H 2 O they do so according to this chemical equation: 2H 2 + O 2 → 2H 2.

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.

Unit 10 Stoichiometry.

II. Stoichiometry in the Real World (p )

Chemistry I Objectives Chapter 11

II. Stoichiometry in the Real World

Unit 8: Stoichiometry: Part 1

Limiting Reactants Copyright © 2008 by Pearson Education, Inc. Publishing as Benjamin Cummings.

Stoichiometry in the Real World

II. Stoichiometry in the Real World (p )

*Notice, kind of like the opposite of Percent Error.

II. Stoichiometry in the Real World (p )

Chapter 6 Chemical Reactions and Quantities

II. Stoichiometry in the Real World

Information Given by Chemical Equations

Experiment Report Format

Limiting/Excess Reactants and Percent Yield

Presentation transcript:

Peanut Butter and Jelly Lab

I. Title: Peanut Butter and Jelly Lab Name I. Title: Peanut Butter and Jelly Lab II. Purpose: To make a peanut butter and jelly sandwich. * Label everything with roman numerals. * Use the given title for your lab * Restate and expand on the purpose given on the lab handout.

III. Background: * Write in paragraphs * Summarize procedure Before beginning this lab, be sure to check for allergies. Lab participants with allergies to peanuts or wheat should be cautious during the process of the lab. Peanut butter, jelly, and bread can be reacted together to create a nutritious lunch. The solutions of peanut butter, P, jelly, J, and bread, B, are mixed to create a peanut butter and jelly sandwich, PB2J. All three reactants are used in their natural states. The reaction is shown below in Equation 1. P(s) + J(l) + 2B(s)  PB2J(s) (Eqn. 1) In the course of the experiment one will place P and J on the two separate B. Then put the 2 B together so that the P and J are both concealed within the B. * Write in paragraphs * Summarize procedure * Define words * Include equation * Third person

* Write in paragraphs * Summarize procedure * Define words Using stoichiometry, the quantitative relationship among the amounts of reactants and products, one can determine how much P, J, and B are needed to create the desired amount of PB2J (Neidig 2). The desired amount of product is 1.00 PBJ. The reaction can only proceed as long as there is sufficient P, J, and B present to react. For example, if 12 J react with 30 B and 5 P, one would only be able to create 5 PB2J. In this example, P is the limiting reactant. This is the substance that is completely used up within the reaction. Thus, the stoichiometry of the reaction and the amount of limiting reactant available determine the theoretical amount of product that can be formed. After an experiment, the actual yield of a reaction is seldom equal to the theoretical yield. This can occur for a number of reasons but is quantitatively measured as the percent yield. This value is calculated using Equation 2. percent yield =(actual yield/theoretical yield)x 100 (Eqn. 2) This lab requires prior knowledge of balancing a chemical reaction, predicting products and understanding how they react, as well as the ability to work common kitchen utensils, such as a knife. As a safety precaution, wash your hands thoroughly with soap before beginning the lab. This decreases the chance of ingesting unanticipated materials from the environment. * Write in paragraphs * Summarize procedure * Define words * Include equation * Third person

1 Jar of Jelly 1 Jar of Peanut Butter Knife Bread Spoon Plate Napkin IV. Materials/Illustrations: 1 Jar of Jelly 1 Jar of Peanut Butter Knife Bread Spoon Plate Napkin * Include numbers * Use correct vocabulary

* Label illustrations * Use only clear and relevant illustrations

V. Variables: Type of Peanut Butter; Type of Jelly; Type of Bread Affecting Variables How to Control Type of Peanut Butter; Type of Jelly; Type of Bread Buy the type of reactants which you prefer. Amount of Jelly and Peanut Butter Add desired amount of jelly and peanut butter to bread.

VI. Procedure: Let’s see what you have. * Be detailed * Include numbers * How, how, how

VII. Observations and Data: * Data collected, * Not data given * Not data calculated

Narrate calculations VIII. Calculations/Data Analysis: Determine amount of each reactant needed to create 1.00 PB2J. Peanut Butter 1.00 PB2J 1 P =1.00 P 1 PB2J Jelly 1.00 PB2J 1J =1.00 J Bread 1.00 PB2J 2 B =2.00 B Determine Percent Error percent yield = (actual yield/theoretical yield) x 100 percent yield = (actual yield/1.00 PB2J) x 100 Narrate calculations

IX. Conclusions/Error Discussion: Purpose… Describe procedure… Results… Factors that effect… Results could be improved if… Take experiment further by… * Explain how errors effect results * Summarize

Work Cited Neidig, Anthony. CHEM 111.1 Laboratory Manual. Pacific Grove, CA: Brooks/Cole, 2001.

Previous Lab Write-Up Concerns 3rd person Should not include Ms. Bjorge or “instructor” Remember your writing skills Cite everything you look up