Speed of sound | Science | Quizalize & Oak National Academy

Starter quiz

A car’s speedometer shows a speed of 20 miles per hour. What does this mean?
- The car has travelled for an hour and covered a distance of 20 miles.
- If the car continued for an hour at this speed, it would travel 20 miles. ✓
- If the car continued for 20 hours at this speed, it would travel 20 miles.
- The car has travelled for 20 hours and covered a distance of a mile.
Which of the following describes the medium of a wave?
- It is another word for the amplitude.
- It is the material the wave travels through. ✓
- It is half-way between a peak and a trough.
- It is the distance between one peak and the next.
Which of the following can describe the motion of particles in sound waves?
- back and forth ✓
- forwards
- left and right ✓
- to the right
- up and down ✓
Which of the following can sound travel through?
- a vacuum
- solids ✓
- liquids ✓
- gases ✓
Which of the following statements about the speed of sound waves in solids, liquids and gases are correct?
- It is higher in liquids than solids, as particles in liquids move faster.
- It is higher in liquids than gases, as particles in liquids are closer together. ✓
- It is higher in solids than liquids, as attractions are stronger in solids. ✓
- It is higher in gases than liquids, as particles in gases are more free to move.
Which of the following is the best definition of experimental errors?
- writing down measurements incorrectly
- differences between measured values and the true values ✓
- ways in which the method of an experiment could be improved
- mistakes made by the experimenter when carrying out the experiment

Exit quiz

Which of the following statements are correct?
- All sound waves travel at the same speed.
- All sound waves have the same frequency.
- The frequency of a sound wave affects the pitch of the sound heard. ✓
- The frequency of a sound wave affects its speed in a particular medium.
A bird is flying at a constant speed. In 3.5 s, it travels 42 m. The speed of the bird is ______ m/s.
- '12' ✓
Two pupils use an echo method to measure the speed of sound in air. The diagram shows the arrangement. When should the pupil start and stop the timer?
- Start when the blocks hit; stop when the sound hits the wall.
- Start when the blocks hit; stop when they hear the sound a second time. ✓
- Start when the sound hits the wall; stop when they hear the sound a second time.
Two pupils measure the speed of sound. The time between making a sound and hearing its echo from a wall 150 m away is 0.94 s. The sound speed they calculate, written to 2 s.f., is ______ m/s.
- '320' ✓
A ship uses sonar to find the distance to an underwater object, by measuring the time taken for sound to return after reflecting from the object. This technique, also used by dolphins, is called ______.
- 'echolocation' ✓
A sonar system on a ship sends out a sound wave and receives an echo 1.20 s later. How far away is the object, if the speed of sound in water is 1500 m/s?
- 625 m
- 900 m ✓
- 1250 m
- 1800 m

Worksheet

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Lesson Details

Key learning points

The ‘speed of sound’ is the distance travelled by a sound wave pulse every second, measured in m/s.
Sound wave speed depends on the medium: it is about 340 m/s in air, faster in liquids and faster still in solids.
Sound waves can reflect from hard surfaces, travel back and be heard again (an echo).
The speed of sound waves (or the distance they travel) can be calculated using the equation: speed = distance ÷ time.
In an experiment, measuring longer distances and times means any errors are a smaller proportion of the measurements.

Common misconception

High pitched sounds (higher frequency sound waves) travel faster than low pitched sounds (lower frequency sound waves).

Take measurements for the speed of sound using a high-pitched blast of a whistle as well as the lower pitched sound of hitting pieces of wood together to show they are the same (within error).

Keywords

Speed - how fast something is moving, often measured in metres per second
Sound wave - a ‘pulse’ that travels through a material caused by forward and backward vibrations of particles
Medium - the material through which a wave travels
Frequency - the number of vibrations each second
Echolocation - a method of detecting distances to objects by making a sound and waiting for an echo to return