Категории: Все - speed - energy - frequency

по Tim Soares 4 лет назад

544

Waves

Mechanical waves can be classified into longitudinal and transverse types, each with distinct particle movements. Longitudinal waves involve particles moving parallel to the energy flow, creating compressions and rarefactions.

Waves

Waves

Doppler Effect

An example of this occurring is when a car honks while it moves at a fast speed past you; the honk will sound like it is changing pitch.
Doppler Effect: when a source of sound approaches an observer, the observed frequency of the sound increases; when the source moves away from an observer, the observed frequency of the sound decreases.

Waves at Media Boundaries:

Fundamental Frequency or First Harmonic (f0): the lowest frequency that can produce a standing wave in a given medium.
Antinode: in a standing wave, the location where the particles of the medium are moving with greatest speed; the amplitude will be twice the amplitude of the original wave.
Node: in a standing wave, the location where the particles of the medium are at rest.
Standing Wave: an interference pattern produced when incoming and reflected waves interfere with each other; the effect is a wave pattern that appears to be stationary.
Transmission: the motion of a wave through a medium, or motion of a wave from one medium to another medium.
Fixed-end Reflection: a reflection that occurs at a media boundary where one end of the medium is unable to vibrate; reflections are inverted.
Free-end Reflection: a reflection that occurs at a media boundary where the second medium is less dense than the first medium; reflections have an amplitude with the same orientation as the original wave.

Properties of Sound Waves:

Decibel (dB): the unit of sound level used to describe sound intensity level
Mach number (M): the ratio of the airspeed of an object to the local speed of sound.
(M) = the airspeed of the object divided by the local speed of sound.
The speed of sound is 331.4 m/s + (0.606 m/s/°C)T where T is the temperature in celsius.
Echo: the sound energy reflected off a surface back to the producer of the sound
-Sound waves are audible to humans between 20 Hz and 2 kHz. Sound waves < 20 Hz are called infrasonic waves. Sound waves > 2 kHz are called ultrasonic waves.

Types of Mechanical Waves:

-Many wave motions in nature are a combination of longitudinal and transverse motion.
-Sound, an important example of a longitudinal wave, is a form of energy produced by rapidly vibrating objects.
-In a fluid, longitudinal waves transfer energy through regions of higher and lower pressure. These regions are called compressions and rarefactions, respectively.
-In longitudinal waves, the particles of the medium move parallel to thedirection of the flow of energy.
-In transverse waves, the particles of the medium move perpendicular to thedirection of the flow of energy.

Beats:

-Many musical instruments can be tuned using beats.
Beat Frequency: the frequency of beats produced by the interference of two waves with slightly different frequencies; equal to the difference in the frequencies of the interfering waves.
Beats: periodic change in sound intensity caused by the interference between two nearly identical sound waves.

Interference of Waves:

Subtopic
Destructive Interference: the process of forming a wave with a smaller amplitude when two or more waves combine.
Constructive Interference: the process of forming a wave with a larger amplitude when two or more waves combine.
Principle of Superposition: at any point the amplitude of two interfering waves is the sum of the amplitudes of the individual waves.
Interference: the process of generating a new wave when two or more waves meet.

Characteristics of Waves:

Simple Harmonic Motion: any motion that repeats itself at regular intervals
Wave speed (v): the rate at which a wave is travelling through a medium; also a measure of how fast the energy in the wave is moving
Factors that affect wave speed and how to calculate them.
Linear Density (m):the mass per unit distance of a string; units are kilograms per metre (kg/m)
Equation to calculate wave speed.
Period (T): the time for a wave to complete one cycle, usually in seconds.
Frequency (f): the number of complete cycles that occur in unit time, usually 1 s; measured in hertz (Hz)
Phase shift: the shift of an entire wave across the x-axis.
Trough: the minimum point of a transverse wave.
Crest: the maximum point of a transverse wave
Wave forms: the shape of a wave when graphed

Vibrations:

-The speed of a wave and the distance it can travel depend on the composition of the medium. A rigid medium allows a wave to travel longer and faster than a less rigid medium. A less rigid medium disperses more energy, thus reducing the speed and distance that a wave can travel.
-the particles of an elastic medium return to their original location after a wave passes through.
-a medium is a material that allows the transmission of energy due to vibrations; can be a solid, liquid, or gas.
-a mechanical wave is a transfer of energy through a medium by particle vibration. Particle vibration is caused by a disturbance to the medium (
-all vibrations need a medium to transfer waves
-a vibration is the cyclical motion of an object around an equilibrium point.