Download presentation
Presentation is loading. Please wait.
Published byTheresa Hood Modified over 8 years ago
1
Topic 5-1 Vibrations And Waves
2
Pendulum Motion Any motion caused by an object swinging back and forth from a fixed object Period: The time it takes the object to swing back and forth Period continued: Only depends on the length of the pendulum and gravity Simple harmonic motion: Is defined as the back and forth motion of a pendulum, also known as a sine curve
3
Parts of a wave Crest: Highest Point Trough: Lowest point Amplitude: Length a wave rises or falls from the midpoint Wavelength: Distance between corresponding points of a wave (λ) Frequency: How often a wave passes a fixed point per second (f)
4
Parts of a Wave Continued Wavelength: Is measured in meters (m) Frequency: Is measured in hertz (Hz) Motion: Is caused by a vibration/disturbance in a given medium
5
Types of Waves Transverse: Is a “traditional” wave caused by a back and forth motion Longitudinal: Waves where compressions cause vibrations Both waves act the same way; they are just formed differently
6
Wave Velocity Will depend on the medium it is passing through Example: Sound travels at roughly 340 m/s through the air and roughly 4 times faster through water Equals: v = λ f Velocity=wavelength times frequency Special Waves: Radio waves and light waves travel with a velocity = 3x10 8 m/s
7
Sample Questions Radio station WKLB in Boston broadcasts at a frequency of 99.5 MHz. What is the wavelength of the radio wave emitted? Clay is surfing on a wave that propels him toward the beach with a speed of 5 m/s. The crests are 20 m apart. What is the waves frequency?
8
Wave Interference Is caused when waves begin to overlap and cause patterns Constructive Interference: Increases in amplitude - “In phase” Destructive Interference: Crest of one wave fills in the trough of another wave - “Out of Phase”
9
Wave Interference Continued - Grey “spokes” represent destructive interference - Black and white areas represent constructive interference
10
Standing Wave Node: No amplitude Anti-node: Area of highest amplitude (1/2 way between nodes) (the higher the amplitude, the more energy in the wave)
11
Doppler Effect (sound) Approaching effect: Pitch is perceived to be higher because the source is getting closer & frequency increases Departing effect: Pitch is perceived to be lower because waves have a chance to separate & frequency decreases
12
Reflection When a wave strikes a barrier and bounces back
13
Refraction The bending of waves in different mediums or different depths of water
14
Resonance Literally means resound. It is an increase in sound waves. Can cause other objects to vibrate
15
Diffraction The bending and spreading of a wave when passing through an opening
16
Diffraction Gratings Used to separate light at different wavelengths –Longer wavelength light, slits closer together causes larger interference pattern –Shorter wavelength light, slits further apart causes smaller interference pattern
17
Applications Radar Gun (police or baseball radar gun) They read waves bouncing back from a moving object. This is how a moving DPS Officer can get you for speeding. Perceived frequency is equal to actual frequency times speed of sound plus the observers speed divided by the speed of sound minus the sources speed. Mathematically: f p = f a [(v+v o )/(v-v s )]
18
Sample Questions Sitting on the beach at Coney Island one afternoon, Sunny finds herself under the flight path of Kennedy Airport. What frequency will sunny hear as the jet, whose engine emits a 1000Hz sound and flies towards her at a speed of 100 m/s? What is the frequency of the same jet as it flies away from Sunny?
Similar presentations
© 2024 SlidePlayer.com Inc.
All rights reserved.