Hooke's Law (Edexcel IGCSE Science (Double Award))

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Hooke's law

  • The relationship between the extension of an elastic object and the applied force is defined by Hooke's Law

  • Hooke's Law states that:

    The extension of an elastic object is directly proportional to the force applied, up to the limit of proportionality

     

  • Directly proportional means that as the force is increased, the extension increases 

    • If the force is doubled, then the extension will double

    • If the force is halved, then the extension will also halve

  • The limit of proportionality is the point beyond which the relationship between force and extension is no longer directly proportional 

    • This limit varies according to the material

Load extension and force, downloadable AS & A Level Physics revision notes

Hooke's Law states that a force applied to a spring will cause it to extend by an amount proportional to the force

The force-extension graph

  • Hooke’s law is the linear relationship between force and extension

    • This is represented by a straight line on a force-extension graph

  • Any material beyond its limit of proportionality will have a non-linear relationship between force and extension

limit-of-proportionality-graph

Hooke's Law is associated with the linear region of a force-extension graph. Beyond the limit of proportionality, Hooke's law no longer applies

Elastic behaviour

  • Elastic behaviour is the ability of a material to recover its original shape after the forces causing the deformation have been removed

  • Deformation is a change in the original shape of an object

  • Deformation can be either: 

    • elastic

    • inelastic

Elastic Deformation

  • Elastic deformation is when the object does return to its original shape after the deforming forces are removed

  • Elastic deformation results in a change in the object's shape that is not permanent

  • Examples of materials that undergo elastic deformation are:

    • Rubber bands

    • Fabrics

    • Steel springs

Inelastic Deformation

  • Inelastic deformation is when the object does not return to its original shape after the deforming forces are removed

  • Inelastic deformation results in a change in the object's shape that is permanent

  • Examples of materials that undergo inelastic deformation are:

    • Plastic

    • Clay

    • Glass

Elastic behaviour of a spring

Elastic-limit

The spring on the right has undergone inelastic deformation, it's shape has been permanently deformed

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Ashika

Author: Ashika

Expertise: Physics Project Lead

Ashika graduated with a first-class Physics degree from Manchester University and, having worked as a software engineer, focused on Physics education, creating engaging content to help students across all levels. Now an experienced GCSE and A Level Physics and Maths tutor, Ashika helps to grow and improve our Physics resources.