Chemistry Grade 11 

10.1 OXIDATION STATE AND BALANCING OF REDOX EQUATIONS 10.1.1 Oxidation Number or State 10.1.2 To Find Oxidation Number of an Element in a Compound or a Radical 10.1.3 Balancing of Redox Equations by Oxidation Number Method 10.1.4 Balancing of Redox Equations by Ion-Electron Method 10.1.4.1 Example 4 (acidic medium) 10.1.4.2 Example 5 (basic medium)

10.2 ELECTROLYTIC CONDUCTION 10.2.0 ELECTROCHEMICAL CELLS 10.2.1 Electrolytic Cells 10.2.1.1 Explanation of Electrolysis 10.2.1.1.1 Fused Salts 10.2.1.1.2 Aqueous Solutions of Salts 10.2.1.2 Electrolysis Processes of Industrial Importance 10.2.2 Voltaic or Galvanic Cell 10.2.2.1 Function of Salt Bridge 10.2.2.2 Voltic cell is reversible cell

10.3 ELECTRODE POTENTIAL 10.3.1 Standard Hydrogen Electrode (SHE) 10.3.2 Measurement of Electrode Potential

10.4 THE ELECTROCHEMICAL SERIES 10.4.1 Applications of Electrochemical Series 10.4.1.1 (i) Prediction of the feasibility of a Chemical Reaction 10.4.1.2 (ii) Calculation of the Voltage or Electromotive Force (emf) of Cells 10.4.1.3 (iii) Comparison of Relative Tendency of Metals and Nonmetals to Get Oxidized or Reduced 10.4.1.4 (iv) Relative Chemical Reactivity of Metals 10.4.1.5 (v) Reaction of Matels with Dilute Acids 10.4.1.6 (vi) Displacement of One Metal by Another from its Solution

10.5 Modern Batteries and Fuel Cells 10.5.1 Lead Accumulator or Lead Acid Battery (Rechargeable) 10.5.1.1 Discharging 10.5.1.2 Recharging 10.5.2 Alkaline Battery (non-rechargeable) 10.5.3 Silver Oxide Battery 10.5.4 Nickel Cadmium Cell (Rechargeable) 10.5.5 Fuel Cells (rechargeable)