Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 AnodeCathode Basic Concepts of Electrochemical Cells.

Published byEunice Wheeler Modified over 8 years ago

Similar presentations

Presentation on theme: "1 AnodeCathode Basic Concepts of Electrochemical Cells."— Presentation transcript:

1 1 AnodeCathode Basic Concepts of Electrochemical Cells

2 2 CHEMICAL CHANGE ---> ELECTRIC CURRENT With time, Cu plates out onto Zn metal strip, and Zn strip “disappears.” Zn is oxidized and is the reducing agent Zn(s) ---> Zn 2+ (aq) + 2e-Zn is oxidized and is the reducing agent Zn(s) ---> Zn 2+ (aq) + 2e- Cu 2+ is reduced and is the oxidizing agent Cu 2+ (aq) + 2e- ---> Cu(s)Cu 2+ is reduced and is the oxidizing agent Cu 2+ (aq) + 2e- ---> Cu(s)

3 3 Oxidation: Zn(s) ---> Zn 2+ (aq) + 2e- Reduction: Cu 2+ (aq) + 2e- ---> Cu(s) -------------------------------------------------------- Cu 2+ (aq) + Zn(s) ---> Zn 2+ (aq) + Cu(s) Electrons are transferred from Zn to Cu 2+, but there is no useful electric current. CHEMICAL CHANGE ---> ELECTRIC CURRENT

4 4 To obtain a useful current, we separate the oxidizing and reducing agents so that electron transfer occurs thru an external wire.To obtain a useful current, we separate the oxidizing and reducing agents so that electron transfer occurs thru an external wire. CHEMICAL CHANGE ---> ELECTRIC CURRENT This is accomplished in a GALVANIC or VOLTAIC cell. A group of such cells is called a battery.

5 5 Electrons travel thru external wire. Salt bridge allows anions and cations to move between electrode compartments.Salt bridge allows anions and cations to move between electrode compartments. Electrons travel thru external wire. Salt bridge allows anions and cations to move between electrode compartments.Salt bridge allows anions and cations to move between electrode compartments. Zn --> Zn 2+ + 2e- Cu 2+ + 2e- --> Cu <--AnionsCations--> OxidationAnodeNegativeOxidationAnodeNegative ReductionCathodePositiveReductionCathodePositive

6 6 The Cu|Cu 2+ and Ag|Ag + Cell

7 7 Electrochemical Cell Electrons move from anode to cathode in the wire. Anions & cations move thru the salt bridge.

8 8 Anode, site of oxidation, negative Cathode, site of reduction, positive

9 9 Terms Used for Voltaic Cells Figure 20.3

Download ppt "1 AnodeCathode Basic Concepts of Electrochemical Cells."

Similar presentations

Basic Concepts of Electrochemical Cells

Basic Concepts of Electrochemical Cells
MS FARZANA MEHBOOB D.A.NEELUM HIGH SCHOOL

MS FARZANA MEHBOOB D.A.NEELUM HIGH SCHOOL
Electrochemical & Voltaic Cells

Electrochemical & Voltaic Cells
Electrochemical Cells

Electrochemical Cells
Cells and Voltage.

Cells and Voltage.
Cells and Voltage.

Cells and Voltage.
Types of Electrochemical Cells Electrolytic Cells: electrical energy from an external source causes a nonspontaneous reaction to occur Voltaic Cells (Galvanic.

Types of Electrochemical Cells Electrolytic Cells: electrical energy from an external source causes a nonspontaneous reaction to occur Voltaic Cells (Galvanic.
Electrochemical Cells. Definitions Voltaic cell (battery): An electrochemical cell or group of cells in which a product-favored redox reaction is used.

Electrochemical Cells. Definitions Voltaic cell (battery): An electrochemical cell or group of cells in which a product-favored redox reaction is used.
Please Pick Up Electrochemical Cells Problem Set.

Please Pick Up Electrochemical Cells Problem Set.
Regents Warm-Up Given the balanced equation representing a reaction: Cl 2 (g) →  Cl(g) + Cl(g) What occurs during this change? (1) Energy is absorbed.

Regents Warm-Up Given the balanced equation representing a reaction: Cl 2 (g) →  Cl(g) + Cl(g) What occurs during this change? (1) Energy is absorbed.
ELECTROCHEMISTRY Chapter 21 Electric automobile Copyright © 1999 by Harcourt Brace & Company All rights reserved. Requests for permission to make copies.

ELECTROCHEMISTRY Chapter 21 Electric automobile Copyright © 1999 by Harcourt Brace & Company All rights reserved. Requests for permission to make copies.
Electrochemistry Use of spontaneous chemical reactions to produce electricity; use of electricity to drive non-spontaneous reactions. Zn(s) + Cu 2+ (aq)

Electrochemistry Use of spontaneous chemical reactions to produce electricity; use of electricity to drive non-spontaneous reactions. Zn(s) + Cu 2+ (aq)
Chapter 20 Electrochemistry

Chapter 20 Electrochemistry
Lecture 233/30/05. Redox example: respiration/combustion Balance redox reaction for glucose (C 6 H 12 O 6 ) respiration (same as combustion reaction)

Lecture 233/30/05. Redox example: respiration/combustion Balance redox reaction for glucose (C 6 H 12 O 6 ) respiration (same as combustion reaction)
Lecture 243/14/06. Balancing Redox reactions H 2 C 2 O 4 (aq) + MnO 4 -  Mn 2+ + CO 2 (g) oxalic acid permanganate 1. Break into half-reactions 2. Balance.

Lecture 243/14/06. Balancing Redox reactions H 2 C 2 O 4 (aq) + MnO 4 -  Mn 2+ + CO 2 (g) oxalic acid permanganate 1. Break into half-reactions 2. Balance.
1 ELECTROCHEMISTRY Chapter 18 SAVE PAPER AND INK!!! When you print out the notes on PowerPoint, print Handouts instead of Slides in the print setup.

1 ELECTROCHEMISTRY Chapter 18 SAVE PAPER AND INK!!! When you print out the notes on PowerPoint, print "Handouts" instead of "Slides" in the print setup.
Aim: What are electrochemical cells?

Aim: What are electrochemical cells?
Electrochemistry Chapter 19.

Electrochemistry Chapter 19.
ChemCom 2013 2 Warm Up: Determine the name and molar mass of the following compounds. NaOH MnO 2 H 2 SO 4.

ChemCom Warm Up: Determine the name and molar mass of the following compounds. NaOH MnO 2 H 2 SO 4.
ELECTROCHEMISTRY REDOX REVISITED! 24-Nov-97Electrochemistry (Ch. 21) & Phosphorus and Sulfur (ch 22)1.

ELECTROCHEMISTRY REDOX REVISITED! 24-Nov-97Electrochemistry (Ch. 21) & Phosphorus and Sulfur (ch 22)1.

Similar presentations

Ads by Google