Energetics

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    Created by
    Shannon Obeng

    Cards (25)

    • Enthalpy
      The change in energy when a chemical reaction occurs, measured at constant pressure
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    • Enthalpy change
      Denoted by the symbol ΔH, measured in kJ/mol, under standard conditions of 100 kPa and 298 K
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    • Endothermic reactions

      • Absorb energy from the surroundings, feel colder
      • Reactants have lower energy than products
      • ΔH is positive
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    • Exothermic reactions

      • Release energy to the surroundings, feel warmer
      • Reactants have higher energy than products
      • ΔH is negative
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    • Bond breaking and bond making
      1. Breaking bonds is endothermic, ΔH positive
      2. Making bonds is exothermic, ΔH negative
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    • Mean bond enthalpy
      The average energy required to break or form a particular type of bond
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    • Calculating enthalpy change using mean bond enthalpies
      Total energy to break bonds - Total energy released when forming bonds = ΔH
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    • Calorimetry
      A method to determine the enthalpy change of a reaction by measuring the temperature change of a solution
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    • Calorimetry experiment
      1. Measure mass of fuel burned and temperature change of water
      2. Use Q = m x c x ΔT to calculate energy transferred
      3. Divide energy by moles of fuel to get enthalpy change
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    • Calorimetry can be used to determine the enthalpy change of combustion of fuels
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    • Calorimetry can also be used to determine the enthalpy change of acid-base reactions
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    • ΔHny
      Energy change divided by moles minus 14212
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    • This is an exothermic reaction, it's a fuel producing heat energy
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    • ΔHny
      • 364.5 kJ per mole
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    • Calorimetry experiment

      Measure temperature change when mixing acid and alkali in a polystyrene cup
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    • Calorimetry experiment
      1. Add acid
      2. Measure initial temperature
      3. Add alkali
      4. Measure final temperature
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    • Acid-alkali reactions are used for calorimetry experiments because they show a reasonable temperature change
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    • Q = mcΔT
      Energy change = mass x specific heat capacity x temperature change
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    • Assume density of liquids is 1 g/cm³ so mass = volume
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    • Calculating enthalpy of neutralization
      1. Find moles of HCl
      2. Energy change / moles of HCl = enthalpy change
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    • Hess's Law
      Total enthalpy change of a reaction is independent of the route taken
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    • Hess Cycles
      • Formation cycle
      • Combustion cycle
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    • Using Hess Cycles
      1. Draw cycle with reactants, products and elements
      2. Substitute data into cycle
      3. Calculate enthalpy change by going with/against arrows
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    • Enthalpy changes are exothermic if negative, endothermic if positive
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    • Sum of enthalpy changes around a Hess Cycle should equal zero
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