1. Agenda – Core I 8:15- 8:25 am - Warm up Complete questions for Friday’s activity on How We Hear pages. C 37-38 8:25 – 8:40 - Interactive Notebook (Glue pages for chapter C-2) (Make-up work) (AR Books) 8: 40 – 8:55 Review and Take Notes on Sound (Frequency, loudness, 8:55- 9:10 Activities p. C- 43 and - 48 (Review sound, vibrations) 9:10 – 9:15 – Prepare for Wellness

2. Parts of a wave Crest Trough Wavelength Wave height

3. 3 Longitudinal vs. Transverse Waves Sound is a longitudinal wave, meaning that the motion of particles is along the same direction of the force Transverse waves—motion of particles at 90 0 angles -water waves, light waves Mechanical Waves transfer energy through matter – air, water, land

4. How water moves in a wave Water waves and sound waves transfer energy through matter (mechanical waves): Particles of water move around in circles. The farther below the surface, the smaller the circle.

5. You can see the result of vibrations that create motion in the water to produce waves at the beach. As the wave slows, its crest and trough come closer together. The top of the wave is not slowed by friction and moves faster than the bottom.

6. Noise from a tuning fork causes ___?___ waves Warm-UP: Complete KWL chart on Sound What do you know? What do you want to know? What do you want to learn?

7. are waves produced by vibrating objects that travels through a gas, liquid, or solid.

8. Are compression waves Travel as vibrations moving through the air as a compression wave Travel through air, but travel through other materials. Slinky – example of compression waves.

9. What is an example of an animal that sends out sound waves under water? Whales communicate through long distances by producing sounds under water

10. 2.1 Facts about Sound C-37- (P13IN) Sound : is a mechanical wave is a vibration that travels through gas, liquid, or solid p. C 40-41 is a longitudinal wave transfers energy through a medium speed depends on its medium p.C-42

11. How Sound Waves are Produced? C38 Sound waves are produced by vibration that are usually too small to see. Vibrations push and pull on the medium around them Vibrations send waves out in all directions Vocal cords are sound making instruments in the body.

12. When are your vocal cords tensed up and when are they relaxed? P. C 39 Vocal cords are tense when you are about to speak or sing. Vocal cords are relaxed when you are breathing to allow air to pass in and out of your windpipe. End of notes for 2.1

13. 2.2 Frequency Determines Pitch Description of Pitch ( write on page 15) the quality of highness or lowness Is determined by frequency A low-frequency makes a low pitch A high frequency makes a high-pitch Rapidly vibrating object makes a high sound Slowly vibrating object makes a low sound

14. Which diagram represents: 1. High Pitch? 2. Low Pitch Washer (larger, small), ball, cork A. B. Activity - Hit several objects against a tuning fork and try to identify the objects by sound [large and small washer, ping pong ball,& cork]

15. High and Low Frequencies Most humans with good hearing can hear in a range of 20 hertz to 20,000 hertz Elephants may use infrasound – sound that travels through the ground, hearing another elephant 20 miles away. Ultrasound is above 20,000 hertz and can be used for communication, find food, image internal body parts and detect objects

16. Natural Frequencies A tuning fork has a natural frequency and can be used to tune a piano Each musical instrument and each human voice has it own particular sound called sound quality or timbre

17. The Doppler Effect Motion causes the sound you hear from a passing vehicle such as a train to seemingly change its pitch (highness or lowness of sound). Frequency and Pitch The sound from a fire truck that is far away reaches you ear at a low frequency. When the vehicle is S, the frequency is greater and the pitch is higher. End Notes for 2.2

18. One String Guitar

19. Activity Construct a single stranded guitar to determine which pitch is higher. Number each distance 1-3 using 1 =lowest, 2= medium 3 = highest? ________10 cm, _______ 15 cm or ______20 cm Observe the vibration of the rubber band. At what distances are vibrations faster? ________10 cm, _______ 15 cm or ______20 cm

20. 2.3 Intensity Determines Loudness Intensity Depends on the amplitude of a sound wave. As the amplitude of a sound decreases, the frequency stays the same. When you take away energy or add energy to a sound wave, you change its intensity without changing its quality

21. 2.3 Facts about Amplification Amplification Increases the strength of an electrical signal Is often used to increase the intensity of a sound wave Is experienced when you listen to a TV, radio or stereo

22. 2.3 Main Idea about Acoustics Acoustics is the scientific study of sound Acoustics Involves how sound is produced Involves how sound is received and heard Refers to the way sound waves behave inside a place

23. 2.3 Intense Sound Can Damage Hearing Intense sounds can damage and destroy hair cells inside the inner ear called the cochlear. Hairs cells make hearing possible Ear damage can be lessened by wearing ear plugs or covering the ear

24. 15.1 Properties of Sound If you could see the atoms, the difference between high and low pressure is not as great. Here, it is exaggerated.

25. Noise from a tuning fork causes ___?___ waves Warm-UP: Complete KWL chart on Sound What do you know? What do you want to know? What do you want to learn?

26. Sound The Nature of Sound Ears and Speakers

27. The Look of Sound Sound Waveforms Frequency Content Digital Sampling

29. What is Resonance? Many objects have a natural frequency – vibrates in a regular pattern. (swings and pendulums)

30. What is Resonance? Many objects have a natural frequency – vibrates in a regular pattern. (see saw and pendulum) Resonance occurs whenever a sound wave has the same frequency as the natural frequency of an object. The sound will cause the object with the same natural frequency to vibrate. What is Resonance? Many objects have a natural frequency – vibrates in a regular pattern. (see saw and pendulum) Resonance occurs whenever a sound wave has the same frequency as the natural frequency of an object. The sound will cause the object with the same natural frequency to vibrate.

31. Operation of the Cochlea

32. 15.1 Recording sound 5.The electrical signal is amplified until it is powerful enough to move the coil in a speaker and reproduce the sound.

33. Wavelength from Sound Waves

35. 15.2 The Doppler effect The shift in frequency caused by motion is called the Doppler effect. It occurs when a sound source is moving at speeds less than the speed of sound.

36. 15.2 Sound Waves A sound wave is a wave of alternating high-pressure and low- pressure regions of air.

37. The Physics of Sound

38. Common Sounds and their Loudness

39. Spring 2006UCSD: Physics 8; 200639 Example Sound Speeds Mediumsound speed (m/s) air (20  C) 343 water1497 gold3240 brick3650 wood3800–4600 glass5100 steel5790 aluminum6420 http://hypertextbook.com/physics/waves/sound/ Resources - http://www.proteacher.org/c/657_Light_and_ Sound.html

40. OSHA Regulation – Exposure

41. Examples of electromagnetic waves Radio waves Microwaves infrared waves ultraviolet light (UV light from sun) X-rays gamma-rays