Shipwrecks, Corrosion and Conservation Summary Slides PART 1 – Jack Dengate.

Slides:

Advertisements

Similar presentations

Experiment #10 Electrochemical Cell.

Advertisements

TOPIC 5 :PORTABLE POWER Science 9: Unit D: Electrical Science and Technology.

Section 3.  Chemical energy is the energy stored in chemical compounds  In the 1780s, Luigi Galvani was studying the anatomy of a frog. He was using.

Electrochemistry.

Prepared by: Mr.P.L.Meena. Electrochemistry is the scientific study of the chemical species and reactions that take place at the interface between an.

Electrochemical & Voltaic Cells

Chapter 20: Electrochemsitry A.P. Chemsitry Oxidation-Reduction Reactions Oxidation-reduction reactions (or redox reactions) involve the transfer.

DO NOW: Questions in M.C. packet. 1. An oxidation-reduction reaction involves the transfer of electrons 2. Reduction is the gain of electrons and decrease.

Voltaic Cells/Electrochemical Cells/Spontaneous Reactions.

Electrolysis Electrolysis breaks down ionic substances into simpler substances by using electricity!

Chemistry 1011 Slot 51 Chemistry 1011 TOPIC Electrochemistry TEXT REFERENCE Masterton and Hurley Chapter 18.

Chapter 19 Electrochemistry

Voltaic Cells Chapter 20.

Electrochemistry The study of chemical reactions that produce electrical current or are driven to occur by applying an electrical current. Chemical potential.

ELECTROCHEMISTRY. What is Electrochemistry?  NaCl + AgBr   Na + CaCl 2   In which reaction to do elements change charges? How could this happen?

Electrochemistry Chapter 19.

Electrochemistry Electrons in Chemical Reactions.

Electrochemistry Chapter 21. Electrochemistry and Redox Oxidation-reduction:“Redox” Electrochemistry: study of the interchange between chemical change.

Electrochemistry AP Chapter 20. Electrochemistry Electrochemistry relates electricity and chemical reactions. It involves oxidation-reduction reactions.

Voltaic or Galvanic Cells D8 c34 Electrochemical Cell.

Chapter 22 REDOX.

Oxidation-Reduction Reactions LEO SAYS GER. Oxidation and Reduction (Redox) Electrons are transferred Spontaneous redox rxns can transfer energy Electrons.

Shockingly Brief yet Rich History of electrochemistry Galvani – frog legs~1780 Volta – battery~1800 Davy- electrolysis~1820.

Explain the process of electrolysis and its uses

Early Electrochemistry

Oxidation and Reduction (REDOX) reactions?

An Introduction to Electroanalytical Chemistry Electrochemistry: The study of the interchange of chemical and electrical energy Oxidation is the loss of.

Electrochemistry.

Chapter 21.  Two types: ◦ Voltaic cell: electrons flow spontaneously ◦ Electrolytic cell: electrons are forced to flow.

Activity Series lithiumpotassiummagnesiumaluminumzincironnickelleadHYDROGENcoppersilverplatinumgold Oxidizes easily Reduces easily Less active More active.

Electrochemistry The study of the interchange of chemical and electrical energy. Sample electrochemical processes: 1) Corrosion 4 Fe (s) + 3 O 2(g) ⇌

ELECTROCHEMISTRY. What is Electrochemistry?  When chemical changes or reactions occur that are caused by electrical energy applied.

Redox Reactions Year 11 Chemistry ~ Unit 2.

Chapter 26 – Electricity from Chemical Reactions.

Galvanic Cells From Chemistry to Electricity. Luigi Galvani Lived in Bologna, Italy Physician During a dissection of a frog, his zinc scalpel.

Electrochemical Cells - producing an electric current with a redox reaction.

Electrochemistry Electrolysis Electrolytic Cells An electrolytic cell is an electrochemical cell that undergoes a redox reaction when electrical energy.

Shipwrecks, Corrosion and Conservation Summary Slides PART 3 – Jack Dengate.

Chemical effect of electric current How things work.

REDOX Part 2 - Electrochemistry Text Ch. 9 and 10.

Copyright©2000 by Houghton Mifflin Company. All rights reserved. 1 Electrochemistry The study of the interchange of chemical and electrical energy.

Electrochemistry Ch.19 & 20 Using chemical reactions to produce electricity.

Shipwrecks, Corrosion and Conservation Summary Slides PART 6 – Jack Dengate.

Electrochemistry Cells and Batteries.

Chapter 16.  the chemical principles, half-equations and overall equations of simple electrolytic cells; comparison of electrolytic cells using molten.

Electrolytic Cells Section 9.2. Vocabulary Electrolysis: electrical energy used to bring about a non-spontaneous redox reaction Electrolyte: any substance.

ELECTROCHEMICAL CELLS. ELECTROCHEMISTRY The reason Redox reactions are so important is because they involve an exchange of electrons If we can find a.

Electrochemistry Ch. 18 Electrochemistry 18.1 Voltaic Cells.

Batteries Lesson 2.3. Key Concepts What was the first battery made of? How does an electrochemical cell work?

ELECTROCHEMISTRY Electrochemistry relates electricity and chemical reactions. It involves oxidation-reduction reactions (aka – redox) They are identified.

18.8 Electrolysis: Driving Non-Spontaneous Chemical Reactions with Electricity.

Redox 21-3 Electrochemistry. 1.) Electrochemical Cells A.) Also called Galvanic Cells B.) Conservation of mass, charge and energy C.) Changes Chemical.

9.2 Electrochemical Cells

Redox Review. Create a Venn Diagram for Voltaic and Electrolytic cells.

mr4iE. batteries containers of chemicals waiting to be converted to electricity the chemical reaction does not.

ELECTROCHEMISTRY CHEM171 – Lecture Series Four : 2012/01  Redox reactions  Electrochemical cells  Cell potential  Nernst equation  Relationship between.

Electrochemistry Chapter 18. Electrochemistry –the branch of chemistry that studies the electricity- related application of oxidation-reduction reactions.

Electrolysis 3.7 Electrolysis…. Electrolysis Use of electrical energy to produce chemical change...forcing a current through a cell to produce a chemical.

Mg(s) + Fe2+(aq) → Mg2+(aq) + Fe(s)

Section 1.4 Cells and Batteries

Electrochemistry and The Chemical Cells.

Chemistry AS – Redox reactions

ELECTROCHEMISTRY JEOPARDY: THE GAME

1. Introduction to Electrochemical Cells

Voltaic Cells/Electrochemical Cells/Spontaneous Reactions

C4 – Chemical changes Key Concepts.

Redox in Electrochemistry

Presentation transcript:

Shipwrecks, Corrosion and Conservation Summary Slides PART 1 – Jack Dengate

Origins of Minerals in Oceans Sea water is an electrolyte solution containing about 0.5 mol L –1 of sodium chloride and significant concentrations of other ions. Sea water is typically about 3.5% salts by mass and has a pH about 8.

Origins of Minerals in Oceans Rain and ground water dissolve salts from the soil and rock layers. This process is known as leaching. The salts are carried to the oceans by rivers.

Origins of Minerals in Oceans Volcanic activity near mid- ocean ridges is responsible for the occurrence of some dissolved salts in sea water. The hydrothermal vents release hot water, rich in salts, into cold sea water. The lower temperature causes some mineral deposits to form on the ocean floor.

Oxidation – Reduction Reactions Oxidation-reduction reactions are also known as either redox reactions or electron transfer reactions. Oxidation reactions and reduction reactions always occur together.

Oxidation – Reduction Reactions Oxidation involves a loss of electrons. Reduction involves a gain of electrons Electrons transfer can occur directly between reactants or from the oxidation reaction site through a conductor to the reduction reaction site.

Sea water as an electrolyte solution In oxidation-reduction reactions electrons move from the reductant undergoing oxidation to the oxidant undergoing reduction An oxidation-reduction reaction will only occur if ions are free to move and an electrochemical cell is produced. The electrical circuit must be complete and there should be no accumulation of charge. Sea water is an electrolyte solution in which ions are free to move and where oxidation-reduction reactions readily take place.

Luigi Galvani Luigi Galvani was the first person to generate an electric current effect in frog's legs using two different metals. He explained the electricity as being of animal origin.

Allesandro Volta Alessandro Volta did not agree with Galvani's explanation. Volta was stimulated to develop the first electric battery from two different metals separated by a conducting solution of salt.

Humphry Davy Humphry Davy used electricity as a source of energy for some of his investigations involving chemicals. He decomposed water by electrolysis and was responsible for isolating many metals in a pure form, including the reactive metals sodium and potassium.

Michael Faraday Michael Faraday carried out quantitative research into electrochemistry, developed laws of electrolysis and introduced terms such as anion and cation to explain what was happening in terms of particle theory.

These four scientists made important contributions to the development of our understanding of electricity and electrochemistry