1. Mention electron transfer chemical reaction explain. 2. Mention the basic component of conductivity apparatus include. 3. Mention and explain type of electrochemical cell. 4. Me... 1. Mention electron transfer chemical reaction explain. 2. Mention the basic component of conductivity apparatus include. 3. Mention and explain type of electrochemical cell. 4. Mention and explain galvanic cell or voltage cell that gain. 5. Give the key part of notation cell. 6. Give the cell reaction. 7. Mention application of electrolytic cell. 8. Mention only process of electrochemical prevention of corrosion. 9. What is the bonding? 10. Mention and explain fundamental of bond. 11. Mention only the type of covalent bond. 12. Mention only Lewis dot structure. Read more

1. Electron transfer involves redox reactions. 2. Includes electrodes and a meter. 3. Galvanic and electrolytic cells. 4. Galvanic cells convert chemical to electrical energy. 5. Includes anode, cathode, salt bridge. 6. Reduction and oxidation reactions. 7. Used in electroplating and refining. 8. Cathodic protection. 9. Interaction forming molecules. 10. Ionic, covalent, metallic. 11. Single, double, triple. 12. Shows valence electrons.

1. Electron transfer reactions involve redox processes where electrons move from one species to another, driving chemical reactions. 2. A basic conductivity apparatus includes electrodes, a power source, and a conductivity meter. 3. Electrochemical cells are of two types: galvanic (voltaic) cells, which generate electricity from spontaneous chemical reactions, and electrolytic cells, which use electrical energy to drive non-spontaneous reactions. 4. A galvanic cell converts chemical energy into electrical energy through spontaneous reactions. 5. Key parts of cell notation include the anode, cathode, and the salt bridge. 6. Cell reactions involve the oxidation of the anode material and reduction at the cathode. 7. Applications of electrolytic cells include electroplating, electrolysis, and refining metals. 8. Electrochemical prevention of corrosion involves methods like cathodic protection. 9. Bonding refers to the interaction between atoms to form molecules. 10. Fundamentals of bonds include ionic, covalent, and metallic bonds, which are based on electron sharing and transfer. 11. Covalent bonds include single, double, and triple bonds. 12. Lewis dot structures represent valence electrons around elements to show bonding and lone pairs.