Waves transfer energy without transferring mass..

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Presentation transcript:

Waves transfer energy without transferring mass.

Figure 6-1 You can use a domino to knock over other dominoes in two different ways: (a) you can throw a domino, or (b) you can trigger a wave of dominoes. Energy Transfer by Waves

A wave… Is a traveling disturbance It carries energy from place to place without requiring matter to travel across the intervening distance.

0015 Properties of Waves, Sound, and Light: 1. recognize the characteristics of mechanical waves (e.g., wavelength, amplitude). Wavelengths Frequency Velocity Amplitude

Figure 6-2 A cross section of a wave reveals the characteristics of wavelength, velocity, and amplitude. Successive wave crests are numbered 1, 2, 3, and 4. An observer at the position of the clock records the number of crests that pass by in a second. This is the frequency, which is measured in cycles per second, or hertz.

Figure 6-4 Transverse (a) and longitudinal (b) waves differ in the motion of the wave relative to the motion of individual particles. Two kinds of waves

Speed of Light Speed of Sound 300,000,000 m/s 186,000 miles/s 331 m/s 760 miles/hr

Relationship among wavelength, frequency, and velocity The velocity of a wave is equal to the length of each wave times the number of waves that pass by each second. Wave velocity (m/s) = wavelength (m) x frequency (Hz) Sample Problem: One tube of a wind chime produces sound at a frequency of 440 Hz. Assuming the speed of sound is 340 m/s, what is the wavelength of sound produced by this chime? Wavelength = velocity / frequency 340 meters per second / 440 Hertz = 0.77 m

0015 Properties of Waves, Sound, and Light: 2. demonstrate knowledge of the properties of sound in everyday phenomena (e.g., echoes, Doppler effect)

Echoes An echo is a sound wave that bounces back

The Human Voice 2 strong bands of tissue called vocal cords --The tighter the vocal cords, faster they vibrate, the higher the pitch. --Increase volume by increasing force of air blown between the vocal cords.

Doppler Effect If a listener or the source of a sound is moving, the listener may hear a pitch that is different from the frequency of the source. The change in pitch heard when the source of sound is moving relative to the listener is the Doppler effect.

Figure 6-9 The Doppler effect occurs whenever a source of waves is moving relative to the observer of the waves. (a) Sound waves spread out from a source in all directions; stationary listeners hear the same pitch. (b) Sound waves from a moving source seem to increase or decrease in pitch, depending on whether the sound is approaching or receding. (c) The Doppler shift for light waves cause a blueshift for approaching sources, and a redshift for receding sources.

How Sound is Produced… Sound is a form of energy caused by vibrating matter.

How Sounds Travel  Vibrations push against molecules in the air and press them closer together  Molecules pushed = compression  Molecules spread = rarefaction

Characteristics of Sound Intensity = the “loudness” or “softness” of a sound Pitch = how “high” or “low” the sound seems

Characteristics of Sound Pitch - how “high” or “low” sound seems Intensity - “loudness” or “softness” Quality - the mix of frequencies that allow us to distinguish between different sounds Interference –waves from two different sources come together (constructive or destructive)

0015 Properties of Waves, Sound, and Light: 3. recognize how the behavior of waves is affected by the medium through which the waves are passing. The speed of sound in air is about 336 meters/sec or 1100 ft/sec In liquids, the molecules are closer together and carry the vibrations more easily and quickly (4X >). In solids, the atoms are very close together and carry the vibrations very easily and quickly (9-15X >).

0015 Properties of Waves, Sound, and Light: 4. recognize characteristics of the electromagnetic spectrum.

Maxwell, in 1867, proposed that light is an electromagnetic wave. “The spectrum of visible light, from red to violet, is only an octave or so in the range of invisible radiations. There is a whole keyboard of information all the way from the longest wavelengths of radiowaves (the low notes) to the shortest wavelengths of X-rays and beyond (the highest notes)” (Bronowski, p. 353).

Electromagnetic “waves”

Figure 6-11 The electromagnetic spectrum includes all kinds of waves that travel at the speed of light, including radio, microwave, infrared, visible light, ultraviolet, X-rays, and gamma rays. Note that sound waves, water waves, seismic waves, and other kinds of waves that require matter in order to move travel much slower than light speed.

Anatomy of the Electromagnetic Wave Electrical and magnetic fields arranged at right angles to each other Perpendicular to the direction the wave is moving

The nature of light  Light is a form of radiant energy given out by the Sun and other light producing bodies in the form of waves.  Light is the one part of a group of the em spectrum that we can see. --Consists of transverse waves, --move up and down as they travel forward

0015 Properties of Waves, Sound, and Light: 5. identify the effect of mirrors, lenses and prisms on the behavior of light.

Same Speed across the whole em spectrum! Velocity of em waves depends on electrical and magnetic interactions, not on the properties of the wave itself. All em waves move at the speed of light! Wavelength x frequency = 300,000 km/s or 186,000 mi/s

Light travels in straight lines Light travels at a speed of 186,000 miles/sec (300,000 km/sec) (in 8 minutes, light to travels Sun to Earth) Thus we see things happen at the exact moment they are happening.

With regard to light, materials are… Transparent = lets light pass through. Translucent = lets some light pass through but reflects some light. Opaque = reflects most or all of the light.

Law of Refection:  angle of incidence is equal to the angle of reflection (holds true for all smooth, polished surfaces)

The Plane Mirror light striking the mirror passes thru the transparent glass, and then almost all the light is reflected back by the shiny, opaque silver

Mirror Convex Concave

Refraction of Light & lenses convex lens light rays passing thru a convex lens are bent toward the thicker middle concave lens light rays passing thru a concave lens are bent toward the thicker ends

Spectrum of visible light

0015 Properties of Waves, Sound, and Light: 6. demonstrate knowledge of the relationship between the properties of waves and how they are perceived by humans (e.g. color, pitch).