Suggested practical - measuring waves in a ripple tank
Measure the speed, frequency and wavelength of waves in a ripple tank
A ripple tank can be used to measure and calculate frequency, wavelength and the speed of waves on the water鈥檚 surface. A ripple tank is a transparent shallow tray of water with a light shining down through it onto a white card below to more easily see the motion of the ripples created on the water鈥檚 surface. Ripples can be made by hand but to generate regular ripples it is better to use a motor.
Aim of the experiment
To measure the frequency, wavelength and speed of waves in a ripple tank.
Method
- Set up the ripple tank as shown in the diagram with about 5 cm depth of water.
- Adjust the height of the wooden rod so that it just touches the surface of the water.
- Switch on the lamp and motor and adjust until low frequency waves can be clearly observed.
- Measure the length of a number of waves then divide by the number of waves to record wavelength. It may be more practical to take a photograph of the card with the ruler and take your measurements from the still picture.
- Count the number of waves passing a point in ten seconds then divide by ten to record frequency.
- Calculate the speed of the waves using wave speed = frequency 脳 wavelength.
Example results table
Length of 12 waves (cm) | Wavelength (cm) | Number of waves in 10 seconds | Frequency (Hz) | Wave speed (cm/s) |
... | ... | ... | ... | ... |
Length of 12 waves (cm) | ... |
---|---|
Wavelength (cm) | ... |
Number of waves in 10 seconds | ... |
Frequency (Hz) | ... |
Wave speed (cm/s) | ... |
Risks/hazards
Hazard | Consequence | Control measures |
Electrical components near water | Shock and damage to components | Secure electrical components before adding water, taking care not to splash |
Hazard | Electrical components near water |
---|---|
Consequence | Shock and damage to components |
Control measures | Secure electrical components before adding water, taking care not to splash |