Required Practical: Investigating Force & Extension (AQA GCSE Physics: Combined Science)

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Required Practical 6: Investigating Force & Extension

Aim of the Experiment

  •  The aim of this experiment is to investigate the relationship between force and extension for a spring

Variables:
  • Independent variable = Force, F
  • Dependent variable = Extension, e
  • Control variables:
    • Spring constant, k

Equipment List

Hooke_s Law Equipment List, downloadable IGCSE & GCSE Physics revision notes

  • Resolution of measuring equipment:
    • Ruler = 1 mm

Method

Hookes Law Apparatus, downloadable IGCSE & GCSE Physics revision notes

Investigating Hooke's law apparatus

  1. Set up the apparatus as shown in the diagram, initially without any masses hanging from the spring
  2. Align the marker to a value on the ruler, record this initial length of the spring
  3. Add the 100 mass hanger onto the spring
  4. Record the mass (in kg) and position (in cm) from the ruler now that the spring has extended
  5. Add another 100 g to the mass hanger
  6. Record the new mass and position from the ruler now that the spring has extended further
  7. Repeat this process until all masses have been added
  8. The masses are then removed and the entire process repeated again, until it has been carried out a total of three times, and an average length is calculated

  • An example table of results might look like this:

Hookes Law Example Table, downloadable IGCSE & GCSE Physics revision notes

Analysis of Results

  • The force, F added to the spring is the weight of the mass
  • The weight is calculated using the equation:

W = mg

  • Where:
    • W = weight in newtons (N)
    • m = mass in kilograms (kg)
    • g = gravitational field strength on Earth in newtons per kg (N/kg)

  • Therefore, multiply each mass by gravitational field strength, g, to calculate the force, F
    • The force can be calculated by multiplying the mass (in kg) by 10 N/kg

  • The extension of the spring is calculated using the equation:

Final length – Original length

  • The final length is the length of the spring recorded from the ruler when the masses were added
  • The original length is the length of the spring when there were no masses

  1. Plot a graph of the force against extension
  2. Draw a line of best fit
  3. If the graph has a linear region (is a straight line), then the force is proportional to the extension and the spring obeys Hooke's law for these forces and extension

Example Force Extension Graph, downloadable IGCSE & GCSE Physics revision notes

Example force-extension graph for a spring that obeys Hooke's law

Evaluating the Experiment

Systematic Errors:

  • Make sure the measurements on the ruler are taken at eye level to avoid parallax error

Random Errors:

  • The accuracy of such an experiment is improved with the use of a pointer (a fiducial marker)

Fiducial Marker Spring, downloadable IGCSE & GCSE Physics revision notes

Fiducial marker to measure the extension more accurately

  • Wait a few seconds for the spring to fully extend when a mass is added, before taking the reading for its new length
  • Make sure to check whether the spring has not gone past its limit of proportionality otherwise, it has been stretched too far and will stop obeying Hooke's law

Safety Considerations

  • Wear goggles during this experiment in case the spring snaps
  • Stand up while carrying out the experiment making sure no feet are directly under the masses
  • Place a mat or a soft material below the masses to prevent any damage in case they fall
  • Use a G clamp to secure the clamp stand to the desk so that the clamp and masses do not fall over
    • As well as this, place each mass carefully on the hanger and do not pull the spring too hard that it breaks or pulls the apparatus over

Examiner Tip

Remember - the extension measures how much the object has stretched by and can be found by subtracting the original length from each of the subsequent lengths.

A common mistake is to calculate the increase in length by each time instead of the total extension – if each of your extensions is roughly the same then you might have made this mistake!

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Ashika

Author: Ashika

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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.