Core Practical 6: Investigating the Speed of Sound (Edexcel AS Physics)

Revision Note

Lindsay Gilmour

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Core Practical 6: Investigating the Speed of Sound

Aim of the Experiment

  • To measure the speed of sound in air using an oscilloscope and a signal generator

Variables

  • Independent variable = Distance
  • Dependent variable = Phase of received signals 
  • Control variables:
    • Same location to carry out the experiment
    • For each set of readings, the same frequency of sound

Equipment

  • Signal generator with loudspeaker
  • Oscilloscope with 2-beam facility
  • Microphone
  • 2 metre rulers or 1 measuring tape of at least 2 m length
  • Connecting leads

Method

5-6-cp6-equipment-set-up_edexcel-al-physics-rn

  1. Connect the microphone and signal generator to an oscilloscope, and set up the signal generator about 50 cm from the microphone
  2. Set the signal to about 4 kHz
  3. The oscilloscope should trigger when the microphone detects a sound, adjust the time base so that the signal from the generator and the microphone can be on the screen with about three cycles visible
  4. Adjust the separation so a trough on the upper trace coincides with a peak on the lower trace (this makes judging the point where the waves coincide easier)
  5. Record the distance between the microphone and signal generator (call this distance 1, d1)
  6. Move the microphone further away, watch the traces on the screen
  7. When the next trough and peak coincide record the new distance (call this distance 2, d2)
  8. Repeat steps 6 and 7 as many times as possible in the available space (numbering the distances as required)
  9. Calculate the mean wavelength of the sound
  10. Using the oscilloscope trace find the frequency of the sound 
  11. Reduce the frequency to around 2 kHz (or half of the original value) and repeat steps 4-10.

Table of Results:

5-6--cp6-table-of-results_edexcel-al-physics-rn

Analysis of Results

  • The speed of sound can be calculated using the equation:

v equals f lambda

  • Frequency is found from the time base of the oscilloscope by using 

f equals 1 over T

Evaluating the Experiment

Systematic Errors:

  • Ensure the scale of the time base is accounted for correctly
    • The scale is likely to be small (e.g. milliseconds) so ensure this is taken into account when calculating frequency
  • Use the oscilloscope signal trace to find frequency to avoid relying on the dial of the signal generator

Random errors:

  • Random errors in taking measurements can be reduced by doing repeat readings and taking an average
  • The time interval is small so make the distance between the microphone and signal generator as large as is practical 

Safety Considerations

  • The voltage and current are low, so normal care with electrical equipment is sufficient (including checking the leads for any signs of damage)
  • Keep sound at a normal listening volume to avoid damage to hearing

Examiner Tip

When you are answering questions about methods to measure waves, the question could ask you to comment on the accuracy of the measurements

When measuring the speed of sound, this experiment is very accurate because the timing is done automatically so reaction time is not a factor

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Lindsay Gilmour

Author: Lindsay Gilmour

Expertise: Physics

Lindsay graduated with First Class Honours from the University of Greenwich and earned her Science Communication MSc at Imperial College London. Now with many years’ experience as a Head of Physics and Examiner for A Level and IGCSE Physics (and Biology!), her love of communicating, educating and Physics has brought her to Save My Exams where she hopes to help as many students as possible on their next steps.