Simple Diffusion Experiments (Oxford AQA IGCSE Combined Science Double Award)

Revision Note

Simple Diffusion Experiments

  • Diffusion occurs in gases and liquids, due to the random motion of their particles

  • It is where particles move from an area of high concentration to an area of low concentration

  • Eventually, the concentration of particles is even as they spread out to occupy all of the available space

  • Diffusion happens on its own and no energy input is required

    • Although, it does happen faster at higher temperatures

Diffusion in liquids

  • Potassium manganate(VII), KMnO4 , in water is a typical demonstration of diffusion in liquids

A diagram showing how the particles diffuse from high concentration to low concentration until evenly spread throughout the solution
The particles diffuse / spread out from high to low concentration

Diffusion in gases

  • Diffusion is faster in gases than in liquids

    • This is because gaseous particles have more energy and move quicker than liquid particles

  • For example, the diffusion of bromine gas and air

Diffusion of bromine gas

A diagram showing containers of bromine and air before and after diffusion has taken place
Bromine diffuses until it is evenly spread throughout the container
  • At the start, the orange-brown bromine gas is an area of high concentration

  • It diffuses from a high to low concentration

  • After 5 minutes, the bromine gas will have diffused from the bottom jar until it is evenly spread throughout both jars

    • The same can be said for the air, although it is less obvious as it is colourless

How molecular mass affects diffusion

  • At the same temperature, different gases do not diffuse at the same rate.

  • This is due to the difference in their relative molecular masses

  • Gases with a lower relative molecular mass are "lighter" which means that they:

    • Travel faster

    • Travel further in the same amount of time

  • The reverse argument is true for gases with a high relative molecular mass, they:

    • Travel slower

    • Do not travel as far in the same amount of time

  • For example, the reaction between ammonia and hydrogen chloride

Diffusion of ammonia and hydrogen chloride

  • Ammonia gas and hydrogen chloride gas react together to form solid ammonium chloride

NH3 (g) + HCl (g) → NH4Cl (s)

  • The Mr of ammonia is 17, while the Mr of hydrogen chloride is 36.5

    • This means that ammonia will travel faster and further than hydrogen chloride

    • Therefore, the ammonium chloride will form nearer to the hydrogen chloride

      • This is seen as a white "smoke" ring inside the gas tube

Diagram showing how the diffusion of gases is affected by their mass
Ammonia molecules have less mass than HCl molecules so they diffuse faster and the product forms closer to the HCl end

Examiner Tips and Tricks

  • When you are talking about diffusion talk about the energy and movement of the particles

  • Careful: Avoid using the word expand!

    • Many students talk about the particles expanding during diffusion when they mean that the particles are spreading out

    • This means that they lose at least one mark

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