Energy stored in a spring: Forces: Physics: GCSE (9:1)

Created by

Harry Parker

Cards (17)

Elastic potential energy 
The energy stored in when an object is stretched or compressed
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Work done on a spring
Equal to the amount of elastic potential energy stored in a spring when it is elastically stretched
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Elastic stretch 
When an object returns to it original shape when the stretching force is removed
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Inelastic (plastic) stretch 
When an object does not return to it original shape when the stretching force is removed
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Ee = 1/2 ke² 
The equation linking elastic potential energy, spring constant and extension (or compression)
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Ee 
The symbol for elastic potential energy
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k 
The symbol for spring constant
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e
The symbol for extension (or compression)
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Joules (J)
The SI unit for energy
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Newtons per metre (N/m) 
The SI unit for spring constant
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Metres (m) 
The SI unit for extension
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Force-extension graph 
A graph of force against extension for an object being stretched
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Significance of the gradient of a force-extension graph
Equal to the spring constant of the object being stretched when it is stretching elastically
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Significance of the area under a force-extension graph
Equal to the work done or the elastic potential energy stored by the object being stretched
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Linear extension (on a force-extension graph)
Occurs below the limit of proportionality when the object is deforming elastically
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Limit of proportionality (on a force-extension graph) 
The point at which the extension of the object changes from a linear to a non-linear extension
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Non-linear extension (on a force-extension graph) 
Occurs above the limit of proportionality when the object is deforming inelastically
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