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What do these have in common?

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Presentation on theme: "What do these have in common?"— Presentation transcript:

1 What do these have in common?

2 They all involve waves

3 Title: Waves Learning Objectives:
Know what a wave is and what causes it Know what a longitudinal and a transverse wave is Know the definitions of amplitude, frequency and wavelength

4 Waves In groups of 3, carry out the tasks at each station.
Read the instructions carefully then answer the questions on your sheet. Don’t move to the next station until I tell you to.

5 Station 1 – Longitudinal Waves Station 2 – Transverse Waves
1) Draw an arrow on the picture below to show which direction the energy moved. 2) Areas where the spring is pushed together is a “compression” and areas where they are spread out is a “rarefraction”. Label these on the picture. 1) Draw an arrow on the picture below to show which direction the energy moved. 2) Is the energy moving in the same direction as the vibrations? Yes/No Station 3 – Wave Measurements _______________: The maximum movement (displacement) from the rest position to either a crest of a trough. _______________: The length of a full cycle of a wave, such as the distance from crest to crest. Has the symbol λ and is measured in metres. _______________: The number of complete waves passing a certain point per second. This is measured in hertz (Hz). 1 Hz is 1 wave per second. Vibrations Vibrations Station 4 – Making Waves Station 5 – Ping Pong Ball 1) Draw a picture of what happened: 1) Draw a picture of what happened: Print one for each pupil 2) The waves are caused by the v_____________ from the tuning fork. 2) The ball moves because e____________ is transferred by the sound waves.

6 Making Waves The waves are caused by the vibrations from the tuning fork.

7 Ping Pong Balls The ball moves because energy is transferred by the sound waves.

8 Longitudinal Waves vibrations Compressions Rarefactions Examples:
Sound waves and ultra sound Some earthquake waves

9 Transverse Waves Energy transfer of the wave moves perpendicular (90⁰) to the vibrations Examples: Light and all electromagnetic waves Ripples on water Vibrations Movement of energy

10 Wave Measurements Amplitude: The maximum movement (displacement) from the rest position to either a crest of a trough. Wavelength: The length of a full cycle of a wave, such as the distance from crest to crest. Has the symbol and is measured in metres. Frequency: The number of complete waves passing a certain point per second. This is measured in hertz (Hz). 1 Hz is 1 wave per second. crest trough Frequency = 𝑁𝑢𝑚𝑏𝑒𝑟 𝑜𝑓 𝑤𝑎𝑣𝑒𝑠 𝑠𝑒𝑐𝑜𝑛𝑑𝑠

11 (seconds) 5 10 15 20 25 30 15 10 5 (mm) -5 -10 -15 100 400 200 300 500 600 (mm)

12 Fill in the Blanks Waves carry _______________ from one place to another. Waves are caused by ______________. Waves that go up and down are called _________________ waves. The vibrations travel _______________ to the direction of the energy transfer of the wave. Waves that vibrate backwards and forwards are called _______________ waves. The vibrations travel in the _________ direction as the direction of the energy transfer of the wave. In a longitudinal wave, areas where the particles are pushed together are called ______________ and areas where the particles are spread out are called _______________. Waves can be measured. The displacement from the rest position is called the ______________. The length of a full cycle of a waves is called the ______________. The number of complete waves passing a certain point in a second is called the _______________. Print one for each pupil Words: frequency, energy, longitudinal, transverse, vibrations, same, perpendicular, rarefaction, compressions, amplitude, wavelength

13 Answers Waves carry energy from one place to another. Waves are caused by vibrations. Waves that go up and down are called transverse waves. The vibrations travel perpendicular to the direction of the energy transfer of the wave. Waves that vibrate backwards and forwards are called longitudinal waves. The vibrations travel in the same direction as the direction of the energy transfer of the wave. In a longitudinal wave, areas where the particles are pushed together are called compressions and areas where the particles are spread out are called rarefactions. Waves can be measured. The displacement from the rest position is called the amplitude. The length of a full cycle of a waves is called the wavelength. The number of complete waves passing a certain point in a second is called the frequency. Print one for each pupil Words: frequency, energy, longitudinal, transverse, vibrations, same, perpendicular, rarefaction, compressions, amplitude, wavelength

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