Rate of Reaction
What is rate of reaction?
- Some reactions take place instantly, but most are much slower and it is possible to measure how long these reactions take to reach a certain stage
- As a chemical reaction proceeds, the concentration of the reactants decreases and the concentration of the products increases
- Reversible reactions are an exception to this, where the concentration of reactants and products remains constant once dynamic equilibrium has been achieved
- The rate of a reaction is the speed at which a chemical reaction takes place and can be expressed as the change in concentration of a particular reactant or product per unit time
- The rate of reaction typically has the units mol dm-3 s-1
How to calculate rate of reaction
- The rate of reaction formula is:
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- Experimental data from reactions can be shown graphically and used to calculate the rate of reaction
Rate of reaction graphs
As the reaction proceeds, the concentration of reactants and products change with time
- The steeper the gradient, the quicker the rate of reaction
- The rate of reaction at a particular time can be found by calculating the gradient of the curve at that time
- To find the gradient of a curve, draw the tangent to the curve and calculate the gradient of the tangent by using the equation:
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Exam Tip
- The rate of reaction is a positive value
- The graph of the reactants' concentration over time shows a negative gradient
- So, the sign of the rate should be altered to be a positive value
- E.g. gradient = –20.6 mol dm-3 s-1 → rate = 20.6 mol dm-3 s-1
- The graph of the products' concentration over time shows a positive gradient
- So, the sign of the rate will already be a positive value and not need altering
Worked example
Iodine and methanoic acid react in aqueous solution.
I2 (aq) + HCOOH (aq) → 2I− (aq) + 2H+ (aq) + CO2 (g)
The rate of reaction can be found by measuring the volume of carbon dioxide produced per unit time and plotting a graph as shown:
Calculate the rate of reaction at 20 seconds.
Answer:
- Draw a tangent to the curve at 20 seconds:
- Complete the triangle and read off the values of x and y
- Determine the gradient of the line using ∆y / ∆x
- Rate of reaction = 24 ÷ 40 = 0.60 cm3 s-1
Exam Tip
- When drawing the tangent to a curve, you should:
- Make the triangle large
- Try to intersect with gridlines if you can
- These points should minimise errors of precision and reduce the chance you will accidentally misread the graph values
