WAVES, LIGHT AND SOUND
WAVES A wave is a disturbance that transfers (carries) energy through matter (a medium) or space (no medium). Most waves require a medium to travel through but light waves (electromagnetic waves) do not need any matter to travel through (why we can get light from the sun). Two main shapes of waves Transverse (light) and Longitudinal (sound)
PARTS OF A WAVE Crests Trough Amplitude: the height of a wave above or below the equilibrium (relates to the amount of energy) Crest: the top of the wave Equilibrium: the original position of the medium before the waves move through it Trough: the lowest point of the wave Wavelength: the length of a wave (cycle) crest to crest or trough to trough Frequency: the number of waves (cycles) that pass a point in one second
WAVELENGTH, FREQUENCY, AND SPEED A long wave has a low frequency and low energy. A short wave has a high frequency and energy. As - inverse relationship The speed of a wave depends on the wavelength and frequency and medium. Velocity = wavelength x frequency v = Example: What is the speed of a wave that has a wavelength of 1m and a frequency of 2 Hz? v = (1m) x (2 Hz) = 2 m/s
SOUND WAVES Sound waves are longitudinal waves. Sounds are caused by vibrations. The speed of sound depends on the medium. Sound travels faster in denser materials. v solids > v liquids > v gases The speed of sound also depends on temperature of the medium. As the temperature increases in a gas the wave speed increases. To increase loudness of a sound you must increase the amplitude (amount of energy). Frequency is related to pitch (high frequency = high pitch and a low frequency = low pitch)
DOPPLER EFFECT The change in a waves frequency whenever there is motion between the source and its receiver. Ex: Sound waves – a car honking it’s horn as it moves down the street. As the car approaches, the waves become pushed together creating shorter wavelength and higher frequencies so the pitch goes up. As the car moves away, the wavelengths become longer, the frequencies are lower, and pitch goes down.
ELECTROMAGNETIC WAVES Light waves are Electromagnetic waves. They do not need a medium to travel through (though they can) They are transverse waves. The speed of light waves is 300 million m/s Only a small portion of the Electromagnetic Spectrum is visible to us.
The Electromagnetic Spectrum Least Energy Most Energy RADIO WAVES: lowest frequency and longest wavelength, used for communication (radio and TV) MICROWAVES: used in cooking and for RADAR INFRARED WAVES: cannot be seen, felt as heat, “below” red, used for cooking, medicine, and night vision VISIBLE LIGHT: the only portion your eyes can detect; consists of 7 main frequencies R(ed)O(range)Y(ellow)G(reen)B(lue)I(ndigo)V(iolet); red violet ULTRAVIOLET: present in sunlight, “beyond” violet, energy is enough to kill living cells, used for sterilization X-RAYS: energy is enough for photons to pass through the skin, for medicine GAMMA RAYS: tremendous ability to penetrate matter, used in the treatment of cancer but can be very dangerous as well
WAVE INTERACTIONS When a wave strikes a barrier it can either be absorbed or reflected. There are 4 types of interactions: 1) Reflection: the bouncing back after a wave strikes an object that does NOT absorb the wave’s energy 2) Refraction: the bending of waves due to a change in speed. 3) Diffraction: The bending of waves around a barrier. 4) Interference: The phenomenon which occurs when two waves meet while traveling along the same medium.
REFLECTION The Law of Reflection states that the angle of the incidence is equal to the angle of reflection. Examples: Sound waves: Echoes Light waves: Mirrors
MIRRORS There are 3 types of mirrors: Plane: flat surface, reflected image is the same size Concave (converging mirror): curves inward, reflected image is either enlarged (object is close to mirror) or image is smaller and up-side down (object is far from mirror) Convex (diverging mirror): curves outward, reflected image is always smaller and right side up; provides a wide field of vision (car side mirrors, surveillance mirrors)
PLANE MIRROR CONVEX MIRROR A B A and B: CONCAVE MIRRORS jfalward/reflection/refle ction55.html
REFRACTION Waves move at different speeds in different types of matter (medium). This causes the waves to bend. Temperature can also affect the speed of a wave. Examples: Sound in air (below); light in air and water (below); light and lenses om/content/sid/4/pa ge/snellslaw
LENSES Lens: a transparent object that refracts light rays such that they converge or diverge to create an image Concave (Diverging Lenses): produce virtual, reduced and upright images (near-sighted corrective lenses) Convex (Converging Lenses): produce real or virtual images (in microscopes; magnifying glasses, far-sighted corrective lenses)
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12 There are two main types of wave interference: 1)Constructive 2)Destructive
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GHSGT PRACTICE QUESTIONS 1) A violin is generating sounds that have the same frequency. Which property of the sound waves needs to be increased to produce louder sounds? a)wavelength b) period c) amplitude d) speed 2) What property does a wave exhibit when it bends as it crosses a barrier? a) diffraction b) reflection c) absorption d) refraction 3) The distance between two consecutive troughs is the a) frequency b) amplitude c) medium d) wavelength
ANSWERS 1) C: AMPLITUDE (greater amplitude = more energy = louder sound) 2) D: REFRACTION 3) D: WAVELENGTH (length of one wave or cycle; crest to crest (peak) or trough to trough (lowest point on a wave))
GHSGT PRACTICE PROBLEMS 4) Which type of wave has the shortest wavelength? a)radio b) gamma c) ultraviolet d) microwave 5) Through which of the following does sound travel at the greatest speed? a)airb) steelc) waterd) a vacuum 6) Which of these light waves has the highest energy waves? a) infrared b) microwaves c) ultraviolet d) visible light
ANSWERS 4) B: GAMMA (highest frequency and energy) 5) B: STEEL (sounds travel faster through denser materials – solids) 6) C: ULTRAVIOLET
GHSGT PRACTICE PROBLEMS 7) The bouncing back of a wave when it hits a barrier is called a) diffraction b) interference c) reflection d) refraction 8) When light waves travel through a vacuum, they always have the same a) amplitude b) frequency c) speed d) wavelength 9) A sound wave travels at a speed of 343 m/s and has a wavelength of 1.4 m. The frequency is a) 245 Hz b) 480 Hz c) Hz d) Hz
ANSWERS 7) C: REFLECTION 8) C: SPEED (speed changes with the medium) 9) A: 245 Hz ( v = = v/ = (343 m/s)/ 1.4 m) = 245 Hz
GHSGT PRACTICE QUESTIONS 10) Which items would best be used to demonstrate refraction of light? a) a mirror and a black cloth b) clear glass and clear plastic c) a flashlight and a white wall d) shiny foil and a shiny floor
ANSWER 10) B: clear glass and clear plastic Refraction is the bending of light as it passes from one transparent (see through) material to another