9.1.3, state the names of compounds using oxidation numbers.
Deduction of the oxidation states of an atom in an ion or a compound.9.1 Balancing redox equations in acidic solutions.Determination of standard free-energy changes (G) using standard electrode potentials.9.2.3, define the terms oxidizing agent and reducing agent.Performance of laboratory experiments involving a typical voltaic cell using two metal/metal-ion half-cells.Electrolysis calculations Topic 20 Organic Chemistry (IB Chemistry) Revision notes on the Structure, Classification and Naming of Organic Nitrogen Compounds, including nomenclature of isomers Multiple choice quiz on the Classification, Structure and Naming (nomenclature) of Organic Compounds containing Nitrogen Type in name Quiz on the.Help support my work by joining the Member's Area or by becoming a Patron.Revision notes on Inorganic redox reactions - Part 1 electronegativity, explaining oxidation and reduction reactions and oxidation state/oxidation number changes Revision notes on Inorganic redox reactions - Part 2 analysing and constructing full redox equations from half-cell reactions Extra gcse notes on Electrochemistry -.3.2.2, deduce redox equations using half- equations.Deduction of redox reactions using half-equations in acidic or neutral solutions.
Voltaic cells convert chemical energy to electrical energy and electrolytic cells convert electrical energy to chemical energy.
Redox equations * Appendix.
9.1 Oxidation states, oxidation states worksheet, applications and skills: Deduction of the oxidation states of an atom in an ion or a compound.
Oxidation occurs at the anode (positive electrode) and reduction occurs at the cathode (negative electrode) in an electrolytic cells.PPT direct link: m/watch/19ikx1npignlm, free SL Quiz direct link: p?titleNjAyODE0.Applications and skills Construction and annotation of both types of electrochemical cells.Explanation of how current is conducted in an electrolytic cell.Electrolytic cells: Electrolytic cells convert electrical energy to chemical energy, by bringing about non-spontaneous processes.Oxidation occurs at the anode (positive electrode) and reduction occurs at the cathode (negative electrode) in an electrolytic cell.The Winkler Method can be used to measure biochemical oxygen demand (BOD used as a measure of the degree of pollution in a water sample.