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Work Done on a Spring | Physics for Grade 10 PDF Download

Introduction

  • When a spring is stretched or compressed by a force, work is done by the spring
  • Work done is the transfer of energy
    • The energy is transferred to its elastic potential energy store
      When a spring is stretched or compressed, there is work done and elastic potential energy is stored
      When a spring is stretched or compressed, there is work done and elastic potential energy is stored
    • Elastic potential energy is defined as:

      The energy stored in an elastic object when work is done on the object

    • Provided the spring is not inelastically deformed (i.e has not exceeded its limit of proportionality), the work done on the spring and its elastic potential energy stored are equal

Calculating Work Done on a Spring

  • The work done, or the elastic potential energy stored, while stretching or compressing a spring can be calculated using the equation:
    Ee = ½ × k × e2
  • Where:
    • Ee = elastic potential energy in joules (J)
    • k = spring constant in newtons per metre (N/m)
    • e = extension in metres (m)
      The elastic potential energy in a stretched spring depends on its spring constant and extension
      The elastic potential energy in a stretched spring depends on its spring constant and extension
  • This equation is only for springs that have not been stretched beyond their limit of proportionality
    • The term e2 means that if the extension is doubled then the work done is quadrupled
    • This is because 22 = 4

Solved Example

Example: A mass is attached to the bottom of a hanging spring with a spring constant k and 0.2 J of work is done to stretch it by 4.5 cm. Calculate the spring constant, k for this spring.

Step 1: List the known quantities 

  • Work done / elastic potential energy, Ee = 0.2 J 
  • Extension, e = 4.5 cm 

Step 2: Write down the relevant equation 

Work Done on a Spring | Physics for Grade 10

Step 3: Rearrange for the spring constant, k 
Multiply by 2 on both sides
2Ee = ke2
Divide by e2 to make k the subject
Work Done on a Spring | Physics for Grade 10
Step 4: Convert any units
The extension should be in metres
4.5 cm = 0.045 m

Step 5: Substitute the values into the equation
Work Done on a Spring | Physics for Grade 10

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