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Describe a Wave. Chapter 14 Waves & Energy Transfer.

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Presentation on theme: "Describe a Wave. Chapter 14 Waves & Energy Transfer."— Presentation transcript:

1 Describe a Wave

2 Chapter 14 Waves & Energy Transfer

3 Wave

4 Wave Pulse

5 Continuous Wave

6 Types of Waves

7 Transverse Wave

8 Longitudinal Wave

9 Surface Wave

10 Mechanical Waves

11 Electromagnetic Waves

12 Ray

13 Measuring Waves

14 Wave Speed

15 v =  d/  t

16 Crest Trough Amplitude Wavelength ( )

17

18 Displacement

19 Amplitude

20 Frequency (f)( )

21 Period (T)

22 Frequency Period Formula

23 Wave Velocity Formula

24 You are 525 m from a clock tower. You hear a clock’s chime at 450 Hz in 1.50 s. Calculate: v, T, & of the sound wave

25 You shout towards a wall 0.685 km away producing a 85 cm wave. You hear the echo in 4.00 s. Calculate: v, T, & f

26 Waves passing from one medium to another

27 Incident Wave

28 Reflected Wave

29 Transmitted Wave

30 Wave Behavior

31 Radio waves travel at 3.00 x 10 8 m/s. Calculate the wavelength of your favorite radio station.

32 A tsunami is formed 1800 km away producing a 60 ft tidal wave that strikes shore 3.0 hr later. Calculate: v wave in m/s

33 Interference

34 Principle of Superposition

35 Constructive Interference

36 Destructive Interference

37 Node

38 Antinode

39 Standing Wave

40 Waves in Two Dimensions

41 Reflected Wave

42 Law of Reflection

43  reflection =  incident  

44 Refraction

45 Less Dense Medium More Dense Medium Normal

46 Diffraction

47

48 Three waves (3.0 m, 0.70 m, & 1.50 m) pass simultaneously through a medium. Calculate maximum & minimum displacement:

49 Infrared light with a wavelength of 1.20  m travels through space at 3.00 x 10 8 m/s. Calculate its: frequency & period

50 A 115 Hz note from a base guitar travels through a room at 345 m/s. Calculate its: wavelength & period

51 A series of 6.0 ft waves move towards an island. Determine the side of the island where the waves will be the largest. Front of back

52 Three waves (2.0 m, 1.5 m, & 1.2 m) pass simultaneously through a medium. Calculate maximum & minimum displacement:

53 Blue light with a wavelength of 450 nm travels through space at 3.00 x 10 8 m/s. Calculate its: frequency & period

54 An 85 Hz note from a bass guitar travels through a room at 340 m/s. Calculate its: wavelength & period

55 Island Phenomenon

56 Answer the questions on page 268 & 269, and work problems a on page 269.

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