wave properties six interactions of waves. wave properties there are 6 main properties, or...

Wave PropertiesSix Interactions of Waves

Wave PropertiesThere are 6 main properties, or interactions, of waves that occur when a wave comes in contact with another wave , or a boundary.

The 6 Interactions of waves are Interference Diffraction Reflection Refraction Absorption Polarization

InterferenceWhen two or more waves

combine together.

Superposition principle

When more than one wave is present, the total oscillation of any point is the sum of the oscillations from each individual wave.

The sound waves and light waves you experience are the superposition (adding up) of thousands of waves with different frequencies and amplitudes.

Your eyes, ears, and brain separate the waves in order to recognize individual sounds and colors.

Constructive InterferenceConstructive interference occurs when waves add up to create a larger amplitude wave.These waves are in-phase with each other.

Constructive Interference

When two waves combine to make a larger wave.

(crest & crest) or (trough & trough)

Destructive InterferenceDestructive interference occurs when waves

add up to make a smaller amplitude wave.

These waves are out-of-phase with each other.

Destructive Interference

Two or more waves combine to produce a smaller wave or destroy the wave

completely. (crest & trough)

Check for Understanding!

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Results of Interference of Waves One of the consequences of wave

interference is a phenomenon called resonance.

Resonance is the reinforcing of an object’s natural frequency so that the amplitude increases very quickly.

Can you think of something that you have seen or heard that you believe to be caused by resonance?

Standing Waves A wave that is confined

between boundaries is called a standing wave.

With all waves, resonance and natural frequency are dependent on reflections from boundaries of the system containing the wave.

Resonance occurs when the reflected pulses add together to form a large amplitude pulse.

ResonanceResonance can also occur when one object vibrates another without touching

A sound wave vibrates a snare drumA singer hits a note that shatters a

glassA struck tuning fork causes another

tuning fork of the same frequency to vibrate

The strings of a guitar vibrate from a sound across the room

Natural Frequency and Resonance

The natural frequency is sometimes called the resonant frequency because the frequencies are the same when the large amplitudes begin to occur.

Real World Examples:

Chinook Helicopter Ground Resonance Test

The Tacoma-Narrows Bridge is an example of driven oscillations that result in large amplitude oscillations.

Resonance

DiffractionThe bending of

a wave as it moves around an obstacle or passes through

a narrow opening.

When waves pass a barrier they curve around it slightly.

When they pass through a small opening, they spread out almost as if they had come from a point source.

These effects happen for all types of

wave: water; sound; light; seismic waves, etc.

Diffraction

Diffraction

Diffraction & Bats•Bats hunt by echolocation—bouncing sound waves off of prey and listening for echoes, so they need to emit sound with a wavelength smaller than the typical moth.

•Bats use ultrasonic sound waves (high frequency waves humans can’t hear) to hunt moths.

•The bats use ultrasound is because at lower frequencies the longer waves would diffract around the moth because they would be close to the same size.

•High frequency sound waves reflect off the moths rather than diffracting around them.

Reflection Reflection is a property of waves that

allows a wave to completely bounce off of the surface of a new medium.

The Law of Reflection states that the angle of incidence is always equal to the angle of reflection.

A ray of light heading towards an object is called an incident ray. If it reflects off the object, it is called a reflected ray.

Law of Reflection

θi θr

θi = θr

Reflection Humans see light by reflection.

Light reflects off of objects and into our eyes.

Refraction Refraction is the property of a wave

where the wave changes direction (bends) when it enters a new medium.

Refracted waves speed up or slow down when entering a new medium.

Refraction

Sound Waves change

direction in different air

temperatures.

Examples of

Refraction of Light

Polarization is a property of waves that allows a wave to oscillate with more than one orientation (direction). Because of this, one direction can be blocked out.

Polarization cannot occur with sound waves in liquids or gases because longitudinal waves travel parallel to the wave direction.

Transverse waves are the best example of polarization.

Polarization

Electromagnetic Waves are an example of transverse waves that travel in more than one direction.

Polarization

A polarized wave has had one or more directions blocked out by something called a polarizer.

Polarization

A polarized wave has had one or more directions blocked out by something called a polarizer.

Polarization

This is how sunglasses work!

Polarization

Absorption of waves is the transfer of the energy of a wave to matter as the wave passes through it.

Absorption

All types of waves can be absorbed.

Absorption

We feel heat due to the absorption of most wavelengths of Electromagnetic Radiation from the Sun.

Absorption