AP Physics B (Princeton 15 & Giancoli 11 & 12) Waves and Sound

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1 AP Physics B (Princeton 15 & Giancoli 11 & 12) Waves and Sound

2 Preview What are the two categories of waves with regard to mode of travel? Mechanical Electromagnetic Which type of wave requires a medium? Mechanical An example of a mechanical wave? Sound

3 Velocity of a Wave The speed of a wave is the distance traveled by a given point on the wave (such as a crest) in a given internal of time. v = d/t d: distance (m) t: time (s) v = f λ v: speed (m/s) λ : wavelength (m) f : frequency (s -1, Hz)

4 Period of a Wave T = 1/f T : Period = (s) F : frequency (s -1, Hz)

5 Problem: Sound travels at approximately 340 m/s, and light travels at 3.0 x 10 8 m/s. How far away is a lightning strike if the sound of the thunder arrives at a location 5.0 seconds after the lightning is seen? Light travels almost instantaneously from strike location to the observer. The sound travels much more slowly: d = v s t = (340 m/s)(5.0 s) = 1700m

6 Problem: The frequency of a C key on the piano is 262 Hz. What is the period of this note? What is the wavelength? Assume speed of sound in air to be 340 m/s at 20 o C. T = 1/f = 1/262 s -1 = s V = f λ λ = v/f λ = 340 m/s / 262 /s = 1.30 m

7 Problem A sound wave traveling through water has a frequency of 500 Hz and a wavelength of 3 m. How fast does sound travel through water? v = λ f = 3m (500 Hz) = 1500 m/s

8 Wave on a Wire v = F T m / L v, velocity, m/s F T, tension on a wire, N m/l mass/unit length, kg/m m/l may be shown as µ

9 Problem Ex A wave whose wavelength is 0.30 m is traveling down a 300 m long wire whose total mass is 15 kg. If the tension of the wire is 1000N, what are the speed and frequency of the wave? Using equation on prior slide: v = [( 1000N) / (15kg)(300m)] = 140m/s f = v / λ = 140 m/s / 0.30 m = 470 Hz

10 Types of Waves A transverse wave is a wave in which particles of the medium move in a direction perpendicular to the direction which the wave moves. Example: Waves on a guitar string A longitudinal wave is a wave in which particles of the medium move in a direction parallel to the direction which the wave moves. These are also called compression waves. Example: Sound WaveTrans.html

11 What are two types of wave Transverse shapes? Longitudinal

12

13 Transverse Wave Type

14 Longitudinal Wave Type

15 Longitudinal vs Transverse

16 Other Waves Types Occurring in Nature Light: electromagnetic Ocean waves: surface Earthquakes: combination Wave demos: waves/wavemotion.html doppler/mach1.html

17 Properties of Waves Reflection occurs when a wave strikes a medium boundary and bounces back into the original medium. Those waves completely reflected have the same energy and speed as the original wave.

18 Types of Reflection Fixed-end Reflection- The wave reflects with inverted phase. Open-end Reflection- The wave reflects with The same phase.

19 Refraction of Waves ü Wave is transmitted from one medium to another. ü Refracted waves may change speed and Wavelength ü Almost always is accompanied by some reflection. ü Refracted waves do not change frequency.

20 Sound - a longitudinal wave Sound travels through air about 340 m/s. Sound travels through other media as well, often much faster than 340 m/s. Sound waves are started by vibration of some other material, which starts the air vibrating.

21 Hearing Sounds We hear a sound as high or low pitch depending on the frequency or wavelength. High-pitched sounds have short wavelengths and high frequencies. Low-pitched sounds have long wavelengths and low frequencies. Humans hear from about 20 Hz to about 20,000 Hz. The amplitude of a sound s vibration is interpreted as its loudness. We measure loudness (also known as sound intensity) on the decibel scale, which is logarithmic. rare_compress.jpg

22 Doppler Effect The Doppler Effect is the apparent change in pitch of a sound as a result of the relative motion of an observer and the source of a sound. Coming toward you a car horn appears higher pitched because the wavelength has been effectively decreased by the motion of the car relative to you. The opposite occurs when you are behind the car.

23 Pure Sound Sounds are longitudinal waves, but they can be shown to look like transverse waves. When air motion is graphed in a pure sound tone versus position, we get what looks like a sine or cosine function. A tuning fork produces a relatively pure tone as does a human whistle.

24 Graphing a Sound Wave

25 Complex Sounds Because of superposition and interference, real world waveforms may not appear to be pure sine or cosine functions. This is because most real world sounds are composed of multiple frequencies. The human voice and most musical instruments are examples.

26 The Oscilloscope With an Oscilloscope we can view waveforms. Pure tones will resemble sine or cosine functions, and complex tones will show other repeating patterns that are formed from multiple sine and cosine functions added together. (Amplitude vs time.)

27 Superposition Principle When two or more waves pass a particular point in a medium simultaneously, the resulting displacement of the medium at that point is the sum of the displacements due to each individual wave. The waves are said to interfere with each other.

28 Superposition of Waves When two or more waves meet, the displacement at any point of the medium is equal to the algebraic sum of the displacements due to the individual waves.

29 Types of Interference If the waves are in phase, when crests and troughs are aligned, the amplitude in increased and this is called constructive interference. If the waves are out of phase, when crests and troughs are completely misaligned, the amplitude is decreased and can even be zero. This is called destructive interference.

30 Constructive Interference Crests are Aligned à the waves are in phase

31 Destructive Interference Crests are aligned with troughs à Waves are out of phase

32 Constructive & Destructive Interference

33 Interference Problem: Draw the waveform from the two components shown below.

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