Chapter 10 Waves
Chapter 1o Section 1 The Nature of Waves
What is a wave? Wave – a repeating disturbance or movement that transfers energy through matter or space
What is a wave? Wave – a repeating disturbance or movement that transfers energy through matter or space Molecules pass energy on to neighboring molecules
What is a wave? Wave – a repeating disturbance or movement that transfers energy through matter or space Molecules pass energy on to neighboring molecules Waves carry energy not matter.
What is a wave? Wave – a repeating disturbance or movement that transfers energy through matter or space Molecules pass energy on to neighboring molecules Waves carry energy not matter. All waves are produced by something that vibrates. (anything that moves up and down or back and forth)
A Medium A medium is a material through which a wave travels. can be solid, liquid, or gas not all waves need a medium to travel through Example – Light waves or Radio Waves
Mechanical Waves A mechanical wave is a wave that can travel only through matter. (solid, liquid, gas) Example: Sound wave Question: Is there sound in space?
Is their sound in space?
Mechanical Waves A mechanical wave is a wave that can travel only through matter. (solid, liquid, gas) Transverse waves vs. Compressional waves
Transverse waves Matter in a medium moves back and forth at right angles to the direction that the wave travels. AKA an S-Wave Ex. Water waves
Compressional Waves Matter in the medium moves in the same direction that the wave travels. AKA P-waves Ex. Sound waves
Combination of Waves Some waves are not purely transverse or compressional but instead will have a combination of both types of waves. Ex. Seismic waves
http://video. nationalgeographic http://video.nationalgeographic.com/video/player/environment/environment-natural-disasters/tsunamis/tsunami-101.html http://video.nationalgeographic.com/video/player/environment/environment-natural-disasters/earthquakes/earthquake-101.html
Wave Properties Chapter 10 Section 2
Waves can differ in… How much energy they carry How fast they travel How they look
Parts of a Wave Transverse waves Crests – the high points Troughs – the lowest points
Parts of a Wave Compression waves compressions – the dense regions rarefactions – the less dense regions
What is Wavelength? The distance between one point in the wave and the nearest point just like it.
Frequency… Frequency is how many wavelengths pass a fixed point each second # expressed in hertz (Hz) As frequency increases, wavelength decreases The frequency of a wave equals the rate of vibration of the source that creates it.
Frequency A period of a wave is the amount of time it takes one wavelength to pass a point. As the frequency of a wave increases, the period decreases. Period has units of seconds.
Wave Speed Wave velocity, or v, describes how fast the wave moves forward. Velocity = wavelength x frequency or v = λ x f light waves travel faster than sound waves (ex. thunder and lightning, baseball bat) Sound waves travel faster in liquids and solids than in gas. Light waves travel faster in gases and empty space than in liquids and solids.
Amplitude Amplitude is the measure of the energy in a wave. Amplitude of a compressional wave is related to how tightly the medium is pushed together at the compression the denser the compressions, the larger the amplitude is and the more energy the wave carries the less dense the rarefactions, the larger the amplitude and the more energy the wave carries
The Behavior of Waves Chapter 10 Section 3
Reflection Reflection occurs when a wave strikes an object and bounces off of it.
Reflection Reflection occurs when a wave strikes an object and bounces off of it. All types of waves can be reflected The angle of incidence of a wave is always equal to the angle of reflection.
Reflection Reflection occurs when a wave strikes an object and bounces off of it. All types of waves can be reflected The angle of incidence of a wave is always equal to the angle of reflection. Normal – an imaginary line perpendicular to a reflective surface Angle of incidence – the angle formed by the wave striking the surface and the normal Angle of reflection – the angle formed by the reflected wave and the normal
Refraction Refraction – the bending of a wave caused by a change in its speed as it moves from one medium to another
Refraction Refraction – the bending of a wave caused by a change in its speed as it moves from one medium to another The greater the change in speed is, the more the wave bends When a wave passes into a material that slows it down, the wave is bent toward the normal When a wave passes into a material that speeds it up, the wave is bent away from the normal.
Normal
Diffraction – an object causes a wave to change direction and bend around it
Diffraction – an object causes a wave to change direction and bend around it
Diffraction Diffraction – an object causes a wave to change direction and bend around it If the object is smaller than the wavelength, the wave diffracts a lot. If the obstacle is much larger than the wavelength, the wave does not diffract much The larger the obstacle is compared to the wavelength, the less the waves will diffract.
Diffraction and Radio Waves AM radio waves have longer wavelengths than FM radio waves. Because of these longer wavelengths, AM radio waves diffract around obstacles like buildings and mountains. AM radio reception is often better than FM reception around these large structures.
Interference The ability of two or more waves to combine and form a new wave.
Interference The ability of two or more waves to combine and form a new wave. Waves pass right through each other and continue in their original direction.
Interference The ability of two or more waves to combine and form a new wave. Waves pass right through each other and continue in their original direction. New wave exists only while the two original waves continue to overlap
Interference The ability of two or more waves to combine and form a new wave. Waves pass right through each other and continue in their original direction. New wave exists only while the two original waves continue to overlap Constructive interference – waves add together Destructive interference – waves subtract from each other
Standing Waves Standing waves – a wave pattern that stays in one place
Standing Waves Standing waves – a wave pattern that stays in one place Form when waves of equal wavelength and amplitude that are traveling in opposite directions continuously interfere with each other. Nodes form at the places where two waves always cancel each other.
Resonance Resonance – the ability of an object to vibrate by absorbing energy at its natural frequency.