Redox 5

Beschreibung

IB Chemistry (9: Oxidation and Reduction) Notiz am Redox 5, erstellt von IBMichelle am 14/04/2014.
IBMichelle
Notiz von IBMichelle, aktualisiert more than 1 year ago
IBMichelle
Erstellt von IBMichelle vor mehr als 10 Jahre
572
2

Zusammenfassung der Ressource

Seite 1

SHE = Standard Hydrogen Electrode

Reference Electrode (since the potential of an electrode can NOT be measured by itself) = hydrogen The hydrogen electrode = 0V

CONDITIONS FOR 0V: Temperature: 25˚C Pressure: 1 atm [H+]: 1 mol/dm3

Electrode Potential = Reduction Half Cells

Use Table 14 in IB Data Booklet

NEGATIVE Electrode Potential: Oxidation happens at the METAL Stronger reducing agent than H2 (g)

POSITIVE Electrode Potential: Reduction happens at the METAL Weaker reducing agent than H2 (g)

VS

METHOD 1: HALF STEP EQUATIONS

Steps: Write Half Cell Equations Flip (if necessary) to balance electrons [Therefore, E˚ x -1] Add the cell potential together

NOTE:Standard Electrodes ≠ Moles

Positive E˚ Cell Potential = Spontaneous Negative E˚ Cell Potential = Non- Spontaneous

METHOD 2: FORMULA

Oxidation: Half cell with MORE reactive metalReduction: Half cell with LESS reactive metal

Nature of Electrode Temperature Concentration of Electrolyte

Ov

Over time, the voltaic cell will be dead (e.g. a dead battery)

SHE

Predicting Cell Potentials

Factors affecting Cell Potentials

Dead Cell

Zusammenfassung anzeigen Zusammenfassung ausblenden

ähnlicher Inhalt

Electrolysis
lisawinkler10
Chemistry General Quiz - 2
lauren_johncock
Chemistry Quiz General -3
lauren_johncock
AS Chemistry - Enthalpy Changes
Sarah H-V
The Periodic Table
asramanathan
Acids, Bases and Salts
asramanathan
Chemical Symbols
Keera
Acids and Bases
Sarah Egan
Using GoConqr to study science
Sarah Egan
Ionic Bondic Flashcards.
anjumn10
Acids and Bases
silviaod119