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Properties of waves - OCR GatewayMeasuring waves in a solid experiment

Waves are one way in which energy may be transferred between stores. Both mechanical and electromagnetic waves will transfer energy but not matter.

Part of Physics (Single Science)Waves in matter

Measuring waves in a solid experiment

Measure the frequency, wavelength and speed of waves in a solid

Jonny Nelson explains waves in a solid with a GCSE Physics practical experiment

There are many different ways that the speed of waves in a solid can be measured. One method involves the use of a vibration generator.

A piece of string hanging over a wooden bridge. There is a weight hooked onto the on the end of the string. At the other end is a vibration generator.

Aim of the experiment

To measure the frequency, wavelength and speed of waves in a string.

Method

  1. Attach a string or cord to a vibration generator and use a 200 gram (g) hanging mass and pulley to pull the string taut as shown in the diagram. Place a wooden bridge under the string near the pulley.
  2. Switch on the vibration generator and adjust the wooden bridge until stationary waves can be clearly observed.
  3. Measure the length of as many half wavelengths (loops) as possible, divide by the number of half wavelengths (loops). This is half the wavelength, doubling this gives the wavelength.
  4. The frequency is the frequency of the power supply.
  5. Calculate the speed of the waves using wave speed = frequency 脳 wavelength

Example results table

Number of half wavelengthsLength of x half wavelengths (cm)Wavelength (cm)Frequency (Hz)Wave speed (cm/s)
...............
Number of half wavelengths...
Length of x half wavelengths (cm)...
Wavelength (cm)...
Frequency (Hz)...
Wave speed (cm/s)...

Risks/hazards

HazardConsequenceControl measures
Cord snappingDamage to eyesEye protection / safety screen
HazardCord snapping
ConsequenceDamage to eyes
Control measuresEye protection / safety screen