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Enthalpy of Neutralisation

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1 Enthalpy of Neutralisation

2 HIGHER GRADE CHEMISTRY CALCULATIONS
Enthalpy of neutralisation. The enthalpy of neutralisation of a substance is the amount of energy given out when one mole of a water if formed in a neutralisation reaction. Worked example 1. 100cm3 of 1 mol l-1 hydrochloric acid, HCl, was mixed with 100 cm3 of 1 mol -1 sodium hydroxide, NaOH, and the temperature rose by 6.2oC. Use DH = -cmDT DH = x x 6.2 DH = kJ ( c is specific heat capacity of water, kJ kg-1 oC-1) m is mass of mixed solution in kg, 0.2 kg DT is change in temperature in oC, 6.2oC) The equation for the reaction is HCl + NaOH  NaCl H2O Number of moles of acid used = Number of moles of alkali = C x V (in litres) = 1 x = 0.1 So number of moles of water formed = 0.1 Use proportion to find the amount of heat given out when 1 mole of water is formed. 0.1 mole  kJ So 1 mole  1/0.1 x – = kJ mol-1.

3 Calculation using enthalpy of neutralisation.
Calculations for you to try. 400 cm3 of 0.5 mol l-1 hydrochloric acid. HCl, was reacted with 400 cm3 of 0.5 mol l -1 potassium hydroxide and the temperature rose by 6.4oC Calculate the enthalpy of neutralisation. Use DH = -cmDT DH = x x 6.4 DH = kJ The equation for the reaction is HCl + KOH  KCl H2O Number of moles of acid used = Number of moles of alkali = C x V (in litres) = x = 0.2 So number of moles of water formed = 0.2 Use proportion to find the amount of heat given out when 1 mole of water is formed. 0.2 mole  kJ So 1 mole  /0.2 x = kJ mol-1. Higher Grade Chemistry

4 Calculation using enthalpy of neutralisation.
Calculations for you to try. cm3 of 0.5 mol l-1 sulphuric acid. H2SO4, was reacted with 500 cm3 of 0.5 mol l -1 potassium hydroxide and the temperature rose by 2.1oC Calculate the enthalpy of neutralisation. Use DH = -cmDT DH = x x 2.1 DH = kJ The equation for the reaction is H2SO NaOH  Na2SO H2O 1 mole of acid reacts with 2 moles of alkali to form 1 mole of water. Number of moles of acid used = x = Number of moles of alkali used = x = 0.25 So number of moles of water formed = Use proportion to find the amount of heat given out when 1 mole of water is formed. 0.125 mole  kJ So 1 mole  /0.125 x = kJ mol-1. Higher Grade Chemistry

5 Calculation using enthalpy of neutralisation
Calculations for you to try. 100cm3 of 0.5 mol l-1 NaOH is neutralised by 100cm3 of 0.5 mol l-1 HCl. Given that the enthalpy of neutralisation is 57.3 kJ mol-2, calculate the temperature rise. The equation for the reaction is HCl + NaOH  NaCl H2O 1 mole of acid reacts with 1 mole of alkali to form 1 mole of water. Number of moles of acid used = x = 0.05 Number of moles of alkali used = x = 0.05 So number of moles of water formed = 0.05 Use proportion to find the amount of energy given out when 0.05 moles of water is formed. 1 mol  kJ So mol  /1 x = kJ DH -cm DT = = = 3.4oC -2.865 -4.18 x 0.2 Higher Grade Chemistry

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