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Practical Applications Le Chatelier’s Principle

Practical Applications Le Chatelier’s Principle. https://www.youtube.com/watch?v=o1_D4FscMnU. Practical Applications Le Chatelier’s Principle. Haber Process N2 + 3H2 2NH3 + heat Able to produce large amounts of ammonia using Le Chatalier’s Principle Increased [N2]  shift RIGHT

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Practical Applications Le Chatelier’s Principle

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  1. Practical Applications Le Chatelier’s Principle • https://www.youtube.com/watch?v=o1_D4FscMnU

  2. Practical Applications Le Chatelier’s Principle • Haber Process • N2 + 3H2 2NH3 + heat • Able to produce large amounts of ammonia using Le Chatalier’s Principle • Increased [N2] shift RIGHT • Decreased Temp  shift RIGHT • Increased Pressure  shift RIGHT • Added a catalyst  speeds up rate of RXN

  3. Practical Applications Le Chatelier’s Principle • There are many other practical applications of Le Chatelier’s Principle • stressing a system (i.e. reaction) causes a shift in the reaction to produce a favorable consequence

  4. Practical Applications Le Chatelier’s Principle • Carbonated Beverages • Rxn between carbon dioxide and water • CO2 + H20 H2CO3 + heat

  5. Practical Applications Le Chatelier’s Principle • Temperature • Increase in temperature causes the rxn Shift LEFT • CO2 + H20 H2CO3 + heat • CO2 will get used up • Hot soda goes flat faster

  6. Practical Applications Le Chatelier’s Principle • Pressure • Increase in pressure causes the rxn to shift RIGHT • CO2 + H20 H2CO3 + heat • How they get the fizz in the soda • Decrease in pressure (opening bottle) rxn shift LEFT • CO2 + H20 H2CO3 + heat • When you open bottle it is fizzy

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