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What is a rate of reaction?

The rate of a reaction is a measure of how quickly a is used up, or a is formed.

Collision theory

For a chemical reaction to happen:

  • reactant must collide with each other
  • the particles must have enough energy for them to react

A collision that produces a reaction is called a . The is the minimum amount of needed for a collision to be successful. This is different for different reasons.

Image gallerySkip image gallerySlide 1 of 3, Two pairs of particles move towards each other., 1. Two pairs of particles move towards each other

Measuring rates of reaction

There are different ways to determine the rate of a reaction. The method chosen usually depends on the reactants and products involved, and how easy it is to measure changes in them.

In addition, how long a reaction is observed for depends on the rate of reaction. Reactions can vary from being almost instantaneous to taking years to complete. In the lab, reactions are usually followed over a few seconds or minutes.

Question

Rusting is a slow reaction. Give four examples of a very fast reaction.

Measuring mass

The change in of a reactant or product can be followed during a reaction. This method is useful when carbon dioxide is a product which leaves the reaction container. It is not suitable for hydrogen and other gases with a small , Mr. The units for rate are usually g/s or g/m.

Measuring volume

The change in of a reactant or product can be followed during a reaction. This method is used when a gas leaves the reaction container. The volume of a gas is measured using a gas syringe, or an upside down or measuring cylinder. The units for rate are usually cm3/s or cm3/min.

Methods to measure volume of gas collected.
Figure caption,
Two ways to measure the volume of a gas produced in a reaction

Graphs

The rate of reaction can be analysed by plotting a graph of mass or volume of product formed against time. The graph shows this for two reactions.

Graph of total mass of product against time from start of reaction. A line labelled 'fast reaction' rises sharply from zero before gradually levelling off. A line labelled 'slow' reaction rises less sharply but eventually levels off at the same height as the fast reaction line.

The of the line is equal to the rate of reaction:

  • the steeper the line, the greater the rate of reaction
  • fast reactions finish sooner (when the line becomes horizontal) than slow reactions