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Iodide ions are oxidised to iodine by hydrogen peroxide in acidic conditions - AQA - A-Level Chemistry - Question 1 - 2018 - Paper 3
Question 1
Iodide ions are oxidised to iodine by hydrogen peroxide in acidic conditions. H2O2(aq) + 2H+(aq) + 2I-(aq) → I2(aq) + 2H2O(l) The rate equation for this reaction c... show full transcript
Worked Solution & Example Answer:Iodide ions are oxidised to iodine by hydrogen peroxide in acidic conditions - AQA - A-Level Chemistry - Question 1 - 2018 - Paper 3
Step 1
Explain why the use of a large excess of H2O2 and I- means that the rate of reaction at a fixed temperature depends only on the concentration of H+(aq).
Answer
The use of a large excess of H2O2 and I- ensures that their concentrations remain effectively constant throughout the reaction. This means that any changes in the rate of reaction can solely be attributed to variations in the concentration of H+(aq), allowing for a simplified rate equation: rate = k'[H+]^{n}. Large excess ensures that changes in the concentration of these reactants do not affect the overall reaction rate.
Step 2
State and explain what must be done to each sample before it is titrated with alkali.
Answer
Each sample must be quenched, typically by adding a solution that stops the reaction immediately, such as a substantial dilution with water or a specific reagent that reacts with H2O2. This ensures that the concentration of H+(aq) remains constant until titration, allowing for accurate measurement of its concentration.