Electrochemical Cells PreLab Worksheet

Similar documents
Electrochemical Cells

Electrochemical Cells Worksheet

To determine relative oxidizing and reducing strengths of a series of metals and ions.

EXPERIMENT 16 Electrochemical Cells: A Discovery Exercise 1. Introduction. Discussion

Name AP CHEM / / Collected Essays Chapter 17

Lab #14: Electrochemical Cells

Zn + Cr 3+ Zn 2+ + Cr. 9. neutrons remain the same: C. remains the same. Redox/Electrochemistry Regents Unit Review. ANSWERS

Chemistry 212 Lab, Spring Design of the Experiment: Standard and Non-Standard Reduction Potentials For Metal/Metal Ion Half-Cells

ELECTROCHEMICAL CELLS NAME ROW PD

Experiment 21. Voltaic Cells

Redox Reactions. CH102, Lab 11 Goals : Safety : Waste :

CHEM J-14 June 2014

AP Questions: Electrochemistry

Page 1 Name: 2Al 3+ (aq) + 3Mg(s) 3Mg 2+ (aq) + 2Al(s) Fe 2 O 3 + 2Al Al 2 O 3 + 2Fe

Name: Regents Chemistry Date:

Concentration Cells. Lab Section. Problem Statement: How does concentration affect the electrical properties of chemical reactions?

UNIT 3 ELECTROCHEMISTRY

Oxidation & Reduction (Redox) Notes

Electrochemistry. To use principles of electrochemistry to understand the properties of electrochemical cells and electrolysis.

Voltaic Cells. 100 ml graduated cylinder Emery cloth 150 ml beakers, 3 Salt bridge Voltmeter Wires with alligator clips, 2

Electrochemistry and the Nernst Equation

Oxidation numbers are charges on each atom. Oxidation-Reduction. Oxidation Numbers. Electrochemical Reactions. Oxidation and Reduction

Practice Exam Topic 9: Oxidation & Reduction

Electrochemistry and Concentration Effects on Electrode Potentials Prelab

Find the oxidation numbers of each element in a reaction and see which ones have changed.

Aim: What are electrochemical cells?

To measure ph s in a variety of solutions and mixtures and to account for the results obtained.

When Done Test. Pg. 324 #1-9 Pg. 325 #1-5 Pg. 325 #1-4

Electrochemical Cells: Virtual Lab

ELECTROCHEMICAL CELLS

A Study of Electrochemistry Prelab

CHAPTER 5 REVIEW. C. CO 2 D. Fe 2 O 3. A. Fe B. CO

CHEM J-14 June 2014

Chemistry 213. Electrochemistry

What is the importance of redox reactions? Their importance lies in the fact that we can use the transfer of electrons between species to do useful

1.In which of the following is the oxidation number of the underlined element given incorrectly? oxidation number

Oxidation-Reduction (Redox) Reactions (4.4) 2) The ox. state of an element in a simple ion is the charge of the ion. Ex:

Lecture 30 Chapter 19, Sections 3-4 Galvanic Cells Electrochemical Potential

What is a Voltaic Cell? Voltaic Cells a.k.a. Electrochemical cells. May 25, Voltaic Cells 2018.notebook

Electrochemistry. Part I: Electrochemical Activity from Chemical Reactions. Part II. Electrochemical activity from cell potentials.

Ch : Electrochemistry and Radiochemistry AP Review Questions

Experiment 28 DIRECT METHANOL FUEL CELL

EXPERIMENT 29 VOLTAIC CELLS

Electrochemistry. Pre-Lab Assignment. Purpose. Background. Experiment 12

ElectroChemistry * Section I: Reactivity of Metals and Metal Ions PRELAB

Electrochemistry and the Nernst Equation

CHEMISTRY 13 Electrochemistry Supplementary Problems

Chapter 18 Electrochemistry. Electrochemical Cells

UNIT 10 Reduction/Oxidation Reactions & Electrochemistry NOTES

12.05 Galvanic Cells. Zn(s) + 2 Ag + (aq) Zn 2+ (aq) + 2 Ag(s) Ni(s) + Pb 2+ (aq) «Ni 2+ (aq) + Pb(s)

Electrochemistry. Outline

2. Which of the following statements best describes the movement of electrons in an electrochemical cell?

Practice Test Redox. Page 1

ELECTROCHEMICAL CELLS

ELECTROCHEMISTRY. these are systems involving oxidation or reduction there are several types METALS IN CONTACT WITH SOLUTIONS OF THEIR IONS

9.1 Introduction to Oxidation and Reduction

Reaction Stoichiometry

Redox and Voltaic Cells

Lecture 27 Chapter 19, Sections 3-4 Galvanic Cells Electrochemical Potential

General Medicine 2016/17

Redox and Voltaic Cells

ELECTROCHEMICAL CELLS

Conductivity of Electrolytes in Solution

Chemistry 213. Electrochemistry I

Module-1: Electrode Potential And Cells 2015

Redox and Electrochemistry

AP Chemistry Laboratory #21: Voltaic Cells. Lab day: Monday, April 21, 2014 Lab due: Wednesday, April 23, 2014

3. Solids cannot conduct electricity because the ions cannot move freely 4. Electrolytic cell

To observe trends in solubility and exceptions to these trends. To write chemical formulas based on cation/anion charges.

*STUDENT* * STUDENT * Mr. Dolgos Regents Chemistry NOTE PACKET. Unit 10: Electrochemistry (Redox) REDOX NOTEPACKET 1

3. ELECTROCHEMISTRY - GALVANIC CELLS

We can use chemistry to generate electricity... this is termed a Voltaic (or sometimes) Galvanic Cell

Electrochemistry. Chapter 19. Concept Check Concept Check Solution. Solution

Lab: Types of Chemical Reactions

Mixtures of Acids and Bases

Q1. Why does the conductivity of a solution decrease with dilution?

Chapter 19 ElectroChemistry

ELECTROCHEMICAL CELLS

OXIDATION-REDUCTIONS REACTIONS. Chapter 19 (From next years new book)

Electrochemistry. A. Na B. Ba C. S D. N E. Al. 2. What is the oxidation state of Xe in XeO 4? A +8 B +6 C +4 D +2 E 0

Electrochemical Cells

EXPERIMENT 7 Precipitation and Complex Formation

Electrochemical Cells Intro

Electrochem: It s Got Potential!

Acid - Base Studies. Goals : Safety : HCl, NaOH, HC 2 H 3 O 2 and NH 3 are corrosive. If. Waste : Solutions may be flushed down the sink.

Solubility Product Constants

BATTERIES AND ELECTROLYTIC CELLS. Practical Electrochemistry

Experiment 18: Galvanic Cells

PROVINCIAL EXAMINATION MINISTRY OF EDUCATION CHEMISTRY 12 GENERAL INSTRUCTIONS

To explore solubilities and reactivities of different metal ions. To identify ions present in unknown solutions using separation methods.

#13 Electrochemical Cells

Chemistry 12. Resource Exam B. Exam Booklet

Introduction to electrochemistry

BCH312 [Practical] 1

Unit 8: Redox and Electrochemistry

Experiment 8 - Double Displacement Reactions

Homework 11. Electrochemical Potential, Free Energy, and Applications

IB Topics 9 & 19 Multiple Choice Practice

Oxidation-Reduction (Redox)

Water: The Fuel Cycle of the Future (Alternative Fuel Source/Home Water Recycling System)

Transcription:

header.jpg Electrochemical Cells PreLab Worksheet 1. There are several hazards associated with the chemicals in the electrochemical cells experiment. For each chemical, determine which hazards it possesses. (Select all that apply. Note: The order of these (a) 3.0 M HCl (b) 3.0 M NaOH (c) 0.1 M Cu(NO 3 ) 2 c 2010-2013 Advanced Instructional Systems, Inc. and North Carolina State University 1

(d) 0.1 M AgNO 3 (e) graphite rods (f) ascorbic acid (solid) c 2010-2013 Advanced Instructional Systems, Inc. and North Carolina State University 2

2. Select the statements that are correct with respect to waste disposal in the Electrochemical Cells Experiment. (Select all that apply. Note: The order of these options may be different in the WebAssign question.) The electrodes should be discarded in the proper jar. Rinsings from the half-cell module can be flushed down the sink. Dilute copper and ascorbic acid solutions should be disposed of in the waste container in the hood. The contents of the half-cell module should be disposed of in the waste container in the hood. Metal and graphite electrodes should be rinsed with water, dried, and returned to their positions on the lab bench. No waste will be generated during this experiment. 3. In Part C of the experiment, you will need to prepare 60. ml of a solution that is 0.10 M in sodium hydrogen phosphate heptahydrate (Na 2 HPO 4 7 H 2 O, MW = 268.1 g/mol) and 0.10 M in ascorbic acid (C 6 H 8 O 6, MW = 176.1 g/mol). (a) How many grams of sodium hydrogen phosphate heptahydrate will you need? Report your answer to three significant figures. (b) How many grams of ascorbic acid will you need? Report your answer to three significant figures. To save time in lab, record these values in your lab notebook for use in Part C of the experiment. 4. Consider the case where the Cu 2+ /Cu and Zn 2+ /Zn half cells are connected in an electrochemical cell, as shown below. In the picture, the two black rectangles are the metal electrodes, connected by an external wire. The electrodes are immersed in solutions of their respective ions. c 2010-2013 Advanced Instructional Systems, Inc. and North Carolina State University 3

Use the table of Standard Reduction Potentials in the Lab Manual to answer the following questions. (a) Which direction do the electrons go in the external wire? (b) In which half cell will a reduction take place? (c) Which half cell is the anode? (d) Which direction do the anions in the salt bridge flow? (e) Select the true statement about phenomena at the electrodes. (Note: The order of these The copper electrode increases in mass, and the zinc electrode decreases in mass. The zinc electrode increases in mass, and the copper electrode decreases in mass. (f) What happens if the leads to the copper and zinc electrodes are switched? (g) What is the standard cell potential (E cell )? c 2010-2013 Advanced Instructional Systems, Inc. and North Carolina State University 4

5. Consider the following two chemical reactions, which are the reverse of each other. Zn + Pb 2+ Zn 2+ + Pb Zn 2+ + Pb Zn + Pb 2+ Note that both reactions are written in one direction, rather than as equilibria. Either might occur in the electrochemical cells you will use in the lab. (a) Predict which of these two reactions will be spontaneous. Use the table of Standard Reduction Potentials in the Lab Manual. (b) What is the standard cell potential (E cell )? 6. Standard cell potentials are determined with 1.0 M solutions of ions. In this experiment, we will use 0.10 M solutions of Zn 2+, Cu 2+, Pb 2+, and Ag + to minimize the amount of hazardous waste generated. In this series of questions, you will figure out what effect this will have on the voltages you observe. Consider a cell consisting of a Cu 2+ /Cu couple and a Ni 2+ /Ni couple. (a) Starting with 1.0 M solutions of ions (standard conditions), evaluate Q in the Nernst (b) What is log Q for this cell? (c) The cell potential in this case should be which of the following? (Note: The order of these c 2010-2013 Advanced Instructional Systems, Inc. and North Carolina State University 5

(d) Starting with 0.1 M solutions of ions (at room conditions), evaluate Q in the Nernst (e) What is log Q for this cell? (f) The cell potential in this case should be which of the following? (Note: The order of these 7. Standard cell potentials are determined with 1.0 M solutions of ions. In this experiment, we will use 0.10 M solutions of Zn 2+, Cu 2+, Pb 2+, and Ag 1+ to minimize the amount of hazardous waste generated. In this series of questions, you will figure out what effect this will have on the voltages you observe. Consider a cell consisting of a Cu 2+ /Cu couple and an Ag 1+ /Ag couple. (a) Starting with 1.0 M solutions of ions (standard conditions), evaluate Q in the Nernst (b) What is log Q for this cell? (c) The cell potential in this case should be which of the following? (Note: The order of these c 2010-2013 Advanced Instructional Systems, Inc. and North Carolina State University 6

(d) Starting with 0.1 M solutions of ions (at room conditions), evaluate Q in the Nernst (e) What is log Q for this cell? (f) The cell potential in this case should be which of the following? (Note: The order of these c 2010-2013 Advanced Instructional Systems, Inc. and North Carolina State University 7

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback