We think you have liked this presentation. If you wish to download it, please recommend it to your friends in any social system. Share buttons are a little bit lower. Thank you!
Presentation is loading. Please wait.
Published byScot Sutton
Modified over 3 years ago
© Boardworks Ltd 2004 1 of 46 Sound KS4 Physics
© Boardworks Ltd 2004 2 of 46 Sound Contents What is sound? Hearing sound Ultrasound Structure of sound waves Summary activities
© Boardworks Ltd 2004 3 of 46 What causes sound? The tuning fork vibrates and you hear a sound. Sounds are made when an object vibrates. Take a tuning fork and strike it against a block of wood. What do you observe?
© Boardworks Ltd 2004 4 of 46 Good vibrations! What vibrates so that the following make sounds? violin strings drum skin voice box loudspeaker cone
© Boardworks Ltd 2004 5 of 46 How does sound travel? How does sound reach your ear? When the drum skin is struck, it vibrates which causes the air beside the drum to vibrate. The compression and stretching of air particles creates a sound wave which is carried through the air to your ear. What type of wave is a sound wave? longitudinal wave
© Boardworks Ltd 2004 6 of 46 Remove the air from the bell jar and what happens to the sound? The bell-jar experiment Place a ringing clock inside the bell jar and what happens? There is air inside the bell jar so the sound can travel and be heard. With a vacuum inside the bell jar, the sound cannot be heard. Why? vacuum pump on
© Boardworks Ltd 2004 7 of 46 100 m START STOP 1. When you see the cymbals crash, press START. 2. When you hear the cymbals crash, press STOP. You need a quiet open space at least 100 m long to perform this investigation. How fast does sound travel?
© Boardworks Ltd 2004 8 of 46 sound distance (m) time (s) speed (m/s) 1 2 3 4 How are these values used to estimate the speed of sound? Record the results of your sound experiments in a table. =294 m/s distance time speed = = 100 0.34 100 0.34 294 How fast does sound travel?
© Boardworks Ltd 2004 9 of 46 Use the results of the cymbals experiment to calculate your average speed of sound. How does your calculation for the average speed of sound compare with the real speed? The speed of sound in air is about… What errors could have affected the results of your cymbals experiment? 340 m/s Do you think the speed of sound in water is the same as it is in air? How fast does sound travel?
© Boardworks Ltd 2004 10 of 46 Different speeds of sound
© Boardworks Ltd 2004 11 of 46 Sound and states of matter Sound waves need a substance to travel through. What are all substances made of? What is the particle model of a solid, a liquid and a gas? In which state are the particles closest together? In which state are the particles furthest apart? solid gas particles solidgasliquid
© Boardworks Ltd 2004 12 of 46 Sound and states of matter Sound waves travel by particles vibrating. What state does sound travel fastest through and why? The particles in a solid are closer together than in a gas or a liquid. This means vibrations are more easily passed from particle to particle and so sound waves travels faster. solidgasliquid Sound waves travel fastest through solids.
© Boardworks Ltd 2004 13 of 46 Usually, you see lightning before you hear thunder. Light travels much faster than sound. The speed of light is… During a thunderstorm, thunder and lightning are created at the same time. Which do you notice first? How could you use thunder and the speed of sound to estimate how far away a thunderstorm is? 300, 000, 000 m/s How much faster is light than sound? Sound or light – which is faster?
© Boardworks Ltd 2004 14 of 46 Which of these travel faster than the speed of sound in air? distance (m) time (s) speed (m/s) small aeroplane 6005 jet fighter9002 cheetah502.5 meteorite10 0000.35 120 450 28 571 20 The jet fighter and the meteorite break the sound barrier. What does this mean? Breaking the sound barrier!
© Boardworks Ltd 2004 15 of 46 The sound wave is reflected back from the surface. What type of sound does this produce? What happens when a sound wave meets a hard flat surface? echo Reflected sound waves
© Boardworks Ltd 2004 16 of 46 1. Use a starting pistol (or clapper board) to make a sound. 2. Measure the time taken between firing the pistol and hearing the echo. How far does the sound travel? START 150 m Stand at least 100 m from a large, flat wall with a stop watch. STOP Experiment on echoes
© Boardworks Ltd 2004 17 of 46 How can you use this result to estimate the speed of sound? The sound of the starting pistol takes 0.92 s to travel a distance of 300 m. =326 m/s distance time speed = = 300 0.92 Repeat the experiment several times to obtain an average. Experiment on echoes How does your calculation for the average speed of sound compare with the real speed?
© Boardworks Ltd 2004 18 of 46 Echoes and reflection What do we call reflected sound?an echo Are hard or soft surfaces best at reflecting sound? How are echoes reduced in cinemas and theatres? By using soft materials on the walls such as curtains. Name two animals that use echoes for navigation or communication. bats and dolphins Hard surfaces produce strong echoes.
© Boardworks Ltd 2004 19 of 46 Contents What is sound? Hearing sound Ultrasound Structure of sound waves Summary activities Sound
© Boardworks Ltd 2004 20 of 46 Sound waves can be studied with this type of equipment. loudspeaker signal generator oscilloscope Which piece of equipment: produces signals over a range of frequencies and of varying amplitudes? converts signals into sound waves? is used to study the frequency and loudness of a sound? signal generator oscilloscope loudspeaker Studying sound waves
© Boardworks Ltd 2004 21 of 46 loud sound quiet sound What is the difference between the sound wave of a quiet sound and a loud sound? The loud sound has taller waves. What would the sound wave of a very loud sound look like? The louder the sound, the greater the amplitude. Why sound is quiet or loud?
© Boardworks Ltd 2004 22 of 46 Which is the loudest? Sound A is the loudest. Which trace represents the loudest sound? Sound A has the largest amplitude, which means the wave has more energy and so the sound is louder. AB
© Boardworks Ltd 2004 23 of 46 low pitch sound high pitch sound What is the difference between the sound wave of a low pitch sound and a high pitch sound? The high pitch sound has a shorter wavelength, so more waves are visible. It has higher frequency waves. What would the sound wave of a very low sound look like? Why sound is low pitch or high pitch?
© Boardworks Ltd 2004 24 of 46 Which is the highest? Which trace represents the sound with the highest pitch? Sound B is the highest pitched. Sound B has the shortest wavelength and the most number of waves visible, so it has the highest frequency. BA
© Boardworks Ltd 2004 25 of 46 Wave animation
© Boardworks Ltd 2004 26 of 46 Contents What is sound? Hearing sound Ultrasound Structure of sound waves Summary activities Sound
© Boardworks Ltd 2004 27 of 46 1.Sound waves are collected by the ear lobe or pinna. 2.The waves travel along the ear canal. 3.The waves make the ear drum vibrate. 4.The small bones (ossicles) amplify the vibrations. 5.The cochlea turns these into electrical signals. 6.The auditory nerve takes the signals to the brain. 3 4 5 6 1 2 How does the ear hear?
© Boardworks Ltd 2004 28 of 46 How does the ear hear?
© Boardworks Ltd 2004 29 of 46 Set the volume and increase the frequency of the signal provided by the signal generator. 20 Hz to 20,000 Hz Humans cannot hear sounds of every frequency. What is the hearing range of a healthy young person? The range of frequencies you can hear is called your hearing range. Can we hear all frequencies?
© Boardworks Ltd 2004 30 of 46 We all have slightly different hearing ranges but almost 1 in 5 people suffer some sort of hearing loss. Temporary hearing loss may be caused by ear infections and colds, after which hearing recovers. Permanent hearing loss and deafness can be present at birth or occur if the ear is damaged or diseased. Does everyone have the same hearing range? People lose the ability to hear sounds of high frequency as they get older. Which end of their hearing range will be affected? Do we have the same hearing?
© Boardworks Ltd 2004 31 of 46 100,000 10,000 1,000 100 10 1 0 human dog elephant bat mouse dolphin Do all animals have the same hearing range? frequency (Hz) Comparing hearing ranges
© Boardworks Ltd 2004 32 of 46 A whisper is 30 dB and normal conversation is 60 dB. How much more powerful is normal conversation compared to a whisper? The loudness of a sound is measured in decibels (dB). 0 dB = quietest audible sound (near total silence) 10 dB = 10 times more powerful than the quietest sound 20 dB = 100 times more powerful than the quietest sound 1,000 times How much more powerful than the quietest sound is 30 dB? How is loudness measured?
© Boardworks Ltd 2004 33 of 46 Any sound above 85 dB can damage hearing. You know you are listening to 85 dB sound if you have to raise your voice to be heard. The amount of time spent listening to a loud sound also causes hearing problems. Any 140 dB sound causes pain and immediate damage! More than two hours of 100 dB sound can damage your ears. What might also influence hearing loss? Why are there laws about the maximum levels of sound that people should be exposed to at work? When is sound dangerous?
© Boardworks Ltd 2004 34 of 46 What is noise? A noise is any unwanted sound. What one person considers noise another person might not. Can you name any examples? List three effects of noise. nausea headaches deafness List three ways of reducing the effects of loud noise. ear protectors putting noisy machinery in insulated rooms double glazing
© Boardworks Ltd 2004 35 of 46 160 140 120 100 80 60 40 20 0 permanent ear damage can just be heard aircraft overhead decibels circular saw at 2m quiet countryside pin being dropped loud bell personal stereo How loud is loud?
© Boardworks Ltd 2004 36 of 46 The results of a hearing tested are shown on an audiogram. It records the softest sound heard at each pitch. The audiogram shows hearing sensitivity for different frequencies (pitch) at different intensities (volume). frequency of sound (Hz) intensity of sound (dB) loud sound moderate sound soft sound low pitch high pitch How is hearing tested?
© Boardworks Ltd 2004 37 of 46 Which audiogram trace represents optimal hearing and which represents impaired hearing? optimal hearing impaired hearing frequency of sound (Hz) intensity of sound (dB) Testing hearing
© Boardworks Ltd 2004 38 of 46 Contents What is sound? Hearing sound Ultrasound Structure of sound waves Summary activities Sound
© Boardworks Ltd 2004 39 of 46 The upper frequency limit of human hearing 20,000 Hz. Any high frequency sound above 20 kHz is called… Whales and dolphins communicate using ultrasound. Why does a dog whistle vibrate at ultrasound frequencies? Can you name another human use of ultrasound? ultrasound What is ultrasound?
© Boardworks Ltd 2004 40 of 46 dolphins ultrasonic toothbrush jewellery cleaning imaging fetuses submarines viewing kidney stones echo location bats ultrasonic cleaning Which of the following does not use ultrasound? It’s a trick question! All of the above involve ultrasound. High frequencies can be very useful! Using ultrasound
© Boardworks Ltd 2004 41 of 46 Ultrasound is the name given to a medical technique. It uses high-frequency sound waves to produce images of inside the body without opening up the body. X rays are more energetic and penetrating and are a lot more dangerous, they could cause damage to the growing baby. fetus at 10 weeks fetus at 20 weeks Why is ultrasound used for scanning fetuses instead of X-rays, which would give a clearer picture? Using ultrasound in medicine
© Boardworks Ltd 2004 42 of 46 Ultrasound, like all sound, is reflected when it meets different boundaries. So how is this used for imaging? An ultrasound machine transmits high-frequency sound waves into the body. These sound waves are reflected different amounts by different tissues. The reflected waves are detected by a receiver. A computer turns the distance and intensities of these echoes into a two-dimensional image. How does ultrasound imaging work?
© Boardworks Ltd 2004 43 of 46 Contents What is sound? Hearing sound Ultrasound Structure of sound waves Summary activities Sound
© Boardworks Ltd 2004 44 of 46 Glossary amplitude – How loud a sound is, which depends on the height of the peak of a sound wave from its rest position. audiogram – A graphical recording of hearing ability at various sound frequencies. echo – The sound produced when sound waves are reflected from a surface and heard shortly after the original. frequency – The number of waves per second, which shows the pitch of a sound. It is measured in hertz (Hz). oscilloscope – A device that displays electronic signals (waves and pulses) on a screen. pitch – How high a sound is, which depends on the frequency of the sound wave vibrations. ultrasound – Sound waves with very high frequencies above the range of human hearing, which are used for producing images of inside the body.
© Boardworks Ltd 2004 45 of 46 Anagrams
© Boardworks Ltd 2004 46 of 46 Sound multiple choice
IGCSE Physics Waves: Sound.
Teacher’s Notes A slide contains teacher’s notes wherever this icon is displayed - To access these notes go to ‘Notes Page View’ (PowerPoint 97) or ‘Normal.
Pitch & Volume D. Crowley, 2008.
KS3 Physics 8L Sound and Hearing.
KS4 Physics Waves: Sound.
IGCSE Physics Sound.
Sound – Part 3 Year 7 Science. Sound Intensity Now, we found the rate at which particles vibrate affects the pitch of the sound and frequency. The magnitude.
- Sound. Sound is a form of energy that travels through matter as waves.
Vibrations Sound waves are compression waves. They are made of atoms being pushed, or compressed, by other atoms. Why wouldn’t sound waves carry in.
Sound Waves Over the next few weeks, we will discuss… How We Hear Properties of Sound Using Sound.
18 – 2 The Nature of Sound.
Unit 2 Lesson 1 Sound Waves and Hearing
The Nature of Sound Physical Science. 9/7/20152 What is Sound? Sound comes from vibrations that move in a series of compressions and rarefactions (longitudinal.
Sound Vibrations Loudness Pitch and frequency Echoes.
Sound Checkpoint Physics. Sound You have probably performed some experiments on sound without knowing it. At some time most people have made a ruler vibrate.
Waves A repeating movement or disturbance that transfers energy...
How Sound Travels Sounds are carried by vibrating particles. Sounds can travel through: 1.Gases ( air in the room ) 2.Liquids ( water in a swimming pool.
© 2019 SlidePlayer.com Inc. All rights reserved.