chemical reactions and energy

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Created by
erin

Cards (20)

  • Chemical reaction
    Almost every chemical reaction is accompanied by an energy change
  • Energy change in chemical reactions
    Energy is transferred to or from the surroundings
  • Energy changes in chemical reactions
    Can be explained by examining the changes in chemical bonding during a reaction
  • Energy changes in chemical reactions
    Used to classify reactions as exothermic or endothermic
  • Exothermic reaction

    • Energy is transferred to the surroundings
    • Temperature of the surroundings increases
    • Examples: combustion, neutralisation, oxidation
  • Exothermic reactions

    • Used in self-heating food cans and outdoor hand warmers
  • Endothermic reaction

    • Energy is taken in from the surroundings
    • Temperature of the surroundings decreases
    • Examples: thermal decomposition, electrolysis
  • Endothermic reactions

    • Used in instant ice packs to treat injuries
  • Energy level diagram
    Shows whether a reaction is exothermic or endothermic
  • Exothermic reactions in energy level diagram
    • Products are at a lower energy level than reactants
    • Energy is given out to the surroundings
    • Downwards arrow shows energy is given out
  • Endothermic reactions in energy level diagram
    • Products are at a higher energy level than reactants
    • Energy is taken in from the surroundings
    • Upwards arrow shows energy is taken in
  • Reaction profile

    Shows how the energy of the chemicals changes during a reaction
  • Reaction profile

    • Includes the activation energy - the minimum energy needed to start a reaction
    • Activation energy is shown as a 'hump' in the line
  • Activation energy
    • Starts at the energy of the reactants
    • Equal to the difference in energy between the top of the 'hump' and the reactants
  • Overall change in energy in a reaction
    Difference between the energy of the reactants and the energy of the products
  • Breaking and making bonds in a chemical reaction
    • Energy is needed to break the bonds in the reactants
    • Energy is released when the bonds in the products are formed
    • The difference between the energy needed to break bonds and the energy released when forming bonds determines the type of reaction
  • Exothermic reactions - breaking and making bonds

    • More energy is released when new bonds are made than is needed to break existing bonds
    • The overall energy change is negative - energy is given out to the surroundings
  • Endothermic reactions - breaking and making bonds

    • More energy is taken in when the existing bonds are broken than is released in making new bonds
    • The overall energy change is positive - energy is taken in from the surroundings
  • Bond energy
    The amount of energy needed to break one mole of covalent bonds of a given type
  • Calculating energy change using bond energies
    1. Add together bond energies for all bonds in reactants - this is 'energy in'
    2. Add together bond energies for all bonds in products - this is 'energy out'
    3. Overall energy change = energy in - energy out