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Simple Harmonic Motion and Waves. What is common between the following?. Acrobat swinging on a trapeze Child swinging on a swing Pendulum of a grandfather clock A wrecking ball swinging back and forth. SIMPLE HARMONIC MOTION.
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What is common between the following? • Acrobat swinging on a trapeze • Child swinging on a swing • Pendulum of a grandfather clock • A wrecking ball swinging back and forth.
SIMPLE HARMONIC MOTION The back and forth vibrating motion (often called oscillatory motion) of an object. A graph of this motion is a sine curve.
SPRING SIMPLE HARMONIC MOTION ANIMATION http://www.upscale.utoronto.ca/PVB/Harrison/Flash/ClassMechanics/SHM/TwoSHM.html
What is a wave? A wave • is a wiggle in space and time • is caused by a vibration • carries energy not matter 2 Types: Mechanical and Electromagnetic
1st Major Category Mechanical Waves • waves that require a medium (solid, liquid, or gas) through which to travel. • Speed of the waves depends on the elasticity of the medium • Are governed by Newton’s Laws • 3 types of mechanical waves: transverse, longitudinal, and surface
Types of mechanical waves • Transverse wave- particle displacement is perpendicular to the wave motion • Examples include waves in piano and guitar strings
Types of mechanical waves (cont) • Longitudinal waves- particle displacement is parallel to the wave motion • Sound is a longitudinal wave • Fluids, liquids, gases, and plasmas usually only transmit longitudinal waves
Types of mechanical waves (cont) • Surface waves- a combination of both transverse and longitudinal waves • Waves on the water’s surface are examples of surface waves
Properties of mechanical waves* 1. Crest- the high point of a wave 2. Trough- the low point of a wave 3. Amplitude- measurement of the amount of energy the wave carries *Some properties are only found in transverse waves and some properties are only found in longitudinal waves.
Properties of mechanical waves* (cont) 4. Wavelength- the distance between the midpoint of one crest/trough to the midpoint of the next crest/trough Compression – In longitudinal waves, sections of shorter wavelength Rarefaction – In longitudinal waves, sections of longer wavelength 5. Line of equilibrium - the resting point of a wave (Where it would end up if it flat lined)
Concept Check: Label the crest, trough, wavelength, amplitude, and line of equilibrium on the transverse wave.
Concept Check: On the given longitudinal wave, label the compression, rarefaction, and wavelength.
Velocity of mechanical waves • Calculated using the formula • V = fλ • Where v is velocity, f is frequency, and λ is wavelength.
Period and Frequency of Waves • Period (T) is amount of time for one cycle T = 1/f • Frequency (f) is how many waves pass in one second. f = 1/T Relationship between these variables is inverse…. As frequency of waves increases the period of a single wave decreases.
Solve the following problem • Problem: Calculate the velocity of waves in water that are 0.4 m apart and have a frequency of 2 Hz. • Answer: v = fλ v = (2 Hz)(0.4 m) v = 0.8 m/s
Again…. • Problem: What is the wavelength of a 340 Hz sound if the velocity of sound is 343 m/s? • Answer: v = fλ 343 m/s = (340 Hz)λ 1.0 m = λ
A Little More Practice • A speaker vibrates at a frequency of 200 Hz. What is its period? T = 1/f 1/200Hz = .005 sec What does .005 sec mean in words? • A swing has a period of 10 seconds. What is its frequency? F = 1/T 1/10sec = .1Hz
Wave Interference • Waves have a very unique property, they can occupy the same space at the same time. • This phenomenon is called interference! • Interference can be either constructive or destructive.
Wave Interference (Cont) • Constructive interference, or reinforcement, occurs when the crests of two waves overlap each other and the amplitudes are added together.
Wave Interference (cont) • Destructive interference, or cancellation, occurs when a crest and a trough of two waves overlap and their amplitudes cancel out.
Waves transfer or carry do not move or carry can be classified into two categories mechanical waves are further classified into are a special type of include examples such as include examples such as transfer energy through do not require transverse waves move move includes to transfer
Day One Review • What are the two types of waves? • Waves must move either parallel or ________________ to the movement of energy. • The point of the wave that is furthest away from the resting line is the __________________. • The ______________________ measures the amount of energy in the wave.
2nd Major Category • Electromagnetic waves • Wave does not need a medium to travel • Wave that is partly electric and partly magnetic • All EM waves are located on the electromagnetic spectrum • All EM waves travel at the speed of light (3.0 x 108 m/s)
Solving an EM problem • The velocity for all EM waves is 3.0 x 108 m/s and is represented by the letter c. • Therefore, the equation v =fλ becomes c = fλ! 1meter = 1.0 x 10-9nm
Solving an EM problem (cont) • Problem: The wavelength of yellow light is 556 nm. What is the frequency? • Answer: c = fλ 3.0 x 108 m/s = f(556 nm) 5.4 x 1014 Hz