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1 Waves and Vibrations. 2 Waves are everywhere in nature Sound waves, visible light waves, radio waves, microwaves, water waves, earthquake waves, slinky.

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Presentation on theme: "1 Waves and Vibrations. 2 Waves are everywhere in nature Sound waves, visible light waves, radio waves, microwaves, water waves, earthquake waves, slinky."— Presentation transcript:

1 1 Waves and Vibrations

2 2 Waves are everywhere in nature Sound waves, visible light waves, radio waves, microwaves, water waves, earthquake waves, slinky waves

3 3 What is a wave? a wave is a disturbance that travels through a medium from one location to another. a wave is the motion of a disturbance It can transfer energy through a vacuum or through matter.

4 4 Slinky Wave Let’s use a slinky wave as an example. When the slinky is stretched from end to end and is held at rest, it assumes a natural position known as the equilibrium or rest position. To introduce a wave here we must first create a disturbance. We must move a particle away from its rest position.

5 5 Slinky Wave This disturbance would look something like this This type of wave is called a LONGITUDINAL wave. The pulse is transferred through the medium of the slinky, but the slinky itself does not actually move. It just displaces from its rest position and then returns to it. So what really is being transferred?

6 6 Slinky Wave Energy is being transferred. The metal of the slinky is the MEDIUM in that transfers the energy pulse of the wave. The medium ends up in the same place as it started … it just gets disturbed and then returns to it rest position. The same can be seen with a stadium wave.

7 7 Longitudinal Wave The wave we see here is a longitudinal wave. The medium particles vibrate parallel to the motion of the pulse. This is the same type of wave that we use to transfer sound.

8 8 Longitudinal Waves (Compression Waves) In a longitudinal wave the matter in the wave moves back and forth parallel to the direction of the wave

9 9 Transverse waves A second type of wave is a transverse wave. We said in a longitudinal wave the pulse travels in a direction parallel to the disturbance. In a transverse wave the pulse travels perpendicular to the disturbance.

10 10 Transverse Waves The differences between the two can be seen

11 11 Transverse Waves In a transverse wave the matter in the wave moves up and down at a right angle to the direction of the wave

12 12 Transverse Waves Transverse waves occur when we wiggle the slinky back and forth. They also occur when the source disturbance follows a periodic motion. A spring or a pendulum can accomplish this. The wave formed here is a SINE wave

13 13 Anatomy of a Wave In our wave here the dashed line represents the equilibrium position. Once the medium is disturbed, it moves away from this position and then returns to it

14 14 Anatomy of a Wave The points A and F are called the CRESTS of the wave. This is the point where the wave exhibits the maximum amount of positive or upwards displacement crest

15 15 Anatomy of a Wave The points D and I are called the TROUGHS of the wave. These are the points where the wave exhibits its maximum negative or downward displacement. trough

16 16 Anatomy of a Wave The distance between the dashed line and point A is called the Amplitude of the wave.\ This is the maximum displacement that the wave moves away from its equilibrium. Amplitude

17 17 Anatomy of a Wave The distance between two consecutive similar points (in this case two crests) is called the wavelength. This is the length of the wave pulse. wavelength

18 18 END DAY ONE NOTES

19 19 Fixed End One type of boundary that a wave may encounter is that it may be attached to a fixed end. In this case, the end of the medium will not be able to move.

20 20 Fixed End Here the incident pulse is an upward pulse. The reflected pulse is upside-down. It is inverted. The reflected pulse has the same speed, wavelength, and amplitude as the incident pulse.

21 21 Fixed End Animation

22 22 Standing Waves If you shake one end of a slinky and the other end is fixed waves traveling in opposite directions are produced. The two traveling waves can interfere in such a way that a large amplitude standing wave will be produced. It is called standing because it does not appear to be traveling.

23 23 Standing waves cont… The points of destructive interference, where the slinky remains still at all times, are called nodes. Points of constructive interference, where cord oscillates with maximum amplitude, are called antinodes.

24 24 Free End Another boundary type is when a wave’s medium is attached to a stationary object as a free end. In this situation, the end of the medium is allowed to slide up and down.

25 25 Free End Here the reflected pulse is not inverted. It is identical to the incident pulse, except it is moving in the opposite direction. The speed, wavelength, and amplitude are the same as the incident pulse.

26 26 Free End Animation

27 27 Change in Medium Our third boundary condition is when the medium of a wave changes. Think of a thin rope attached to a thin rope. The point where the two ropes are attached is the boundary. At this point, a wave pulse will transfer from one medium to another

28 28 Change in Medium Part of the wave energy is transferred to the more dense medium, and part is reflected. The transmitted pulse is upright, while the reflected pulse is inverted.

29 29 Change in Medium The speed and wavelength of the reflected wave remain the same, but the amplitude decreases. The speed, wavelength, and amplitude of the transmitted pulse are all smaller than in the incident pulse.

30 30 Change in Medium Animation

31 31 Refraction A change in the direction of a wave that occurs when the wave encounters a boundary between one medium into a medium where its speed is different. The wave may move in a different direction than the incident wave EXAMPLE: when light travels through different mediums (such as water & air) it changes direction slightly. Light refracts (or bends) when it passes from water to air. The straw looks bent because you are seeing the bottom part through the water and air but the top part through the air only. Air has a refractive index of around 1.0003 while water has a refractive index of about 1.33. http://www.teachertube.com/viewVideo.p hp?video_id=92571#

32 32 Diffraction Waves spread as they travel When they encounter an obstacle, they bend around it somewhat and pass into the region behind it. Animation: http://www.acoustics.salford.ac.uk/fescho ols/waves/diffract3.htm http://www.acoustics.salford.ac.uk/fescho ols/waves/diffract3.htm

33 33 Doppler Effect Doppler Effect is the change in the frequency (or wavelength) of any emitted waves, such as a wave of light or sound as the source of the wave approaches or moves away from an observer.

34 34 Doppler effect continued… If the source is at rest in some medium, and the observer is approaching the source at a constant speed…… The amount of time between each successive wave crest is shorter than it would be if the observer were at rest, and so the frequency observed is larger. General rule: for observers moving at velocities much less than the velocity of the wave in its medium, is that the change in frequency depends on the velocity of the observer relative to the source.

35 35 Doppler Effect Continued… Due to the general rule: The shriek of an ambulance siren has a higher pitch when the source approaches and a lower pitch when the source recedes.

36 36 Unpolarized light A light wave which is vibrating in more than one plane is referred to as unpolarized light. Light emitted by the sun, by a lamp in the classroom, or by a candle flame is unpolarized light.

37 37 Polarized light Polarized light waves are light waves in which the vibrations occur in a single plane. The process of transforming unpolarized light into polarized light is known as polarization.

38 38 Polarization Property of light and other transverse waves

39 39

40 40 Wave Interaction When two waves meet while traveling along the same medium it is called INTERFERENCE.

41 41 Constructive Interference Two waves moving towards each other, both having a positive upward amplitude. They will ADD together to produce a greater amplitude. This is known as CONSTRUCTIVE INTERFERENCE.

42 42 Destructive Interference Two waves moving towards each other, one having a positive (upward) and one a negative (downward) amplitude. This time when they add together they will produce a smaller amplitude. This is know as DESTRUCTIVE INTERFERENCE.

43 43 Check Your Understanding Which points will produce constructive interference and which will produce destructive interference? Constructive G, J, M, N Destructive H, I, K, L, O


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