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This Concept Map, created with IHMC CmapTools, has information related to: electrochemistry, Galvanic / Voltaic Cell can be represented by Cell Notation, Galvanic / Voltaic Cell involves Spontaneous reactions, Faraday's First Law Q=It Mol e or F, Molten Salt cations undergo reduction at Cathode (-), Standard Electrode Potential / Standard Reduction Potential to determine Standard Cell Pontential, Electrochemistry involves Electrochemical Cell, Electrolytic Cell Usefull in Industrial Application, Standard Electrode Potential / Standard Reduction Potential to determine / compare Oxidising & Reducing Agent Strength, Electrochemical Cell converts chemical energy to electrical energy Galvanic / Voltaic Cell, Electrochemical Cell converts electrical energy to chemidal energy Electrolytic Cell, Mol e or F Stoichiometry Moles of product, Function of Salt Bridge to maintain the neutrality of half cell, Aqueous Solution (dilute or concentrated NaCl water molecules or cations undergo reduction at Cathode (-), Industrial Application includes Electroplating, Galvanic / Voltaic Cell Operation depends on Standard Electrode Potential / Standard Reduction Potential, easier to undergo reduction the stronger Oxidising agent, Electrolysis based on Standard Electrode Potential / Standard Reduction Potential, Electrolytic Cell Stoichiometry governed by Faraday's First Law, Standard Cell Pontential to predict Spontaneity of Reaction, Standard Electrode Potential / Standard Reduction Potential Measured relative to Standard Hydrogen Electrode