wavethe lowestpoint on awavea spot whentwo wavesmeet to makethe greatestamplitudethe spot whentwo wavesmeet to have adisplacement ofzeroa disturbancethat carriesenergy throughmatter orspace.the material amechanicalwave cantravel throughLaw ofReflectiona line drawnperpendicularto the surfaceat which awave hits aboundaryThe force actingon a spring isdirectlyproportional to theamount that thespring is stretchedthe motion of anobject with arestoring force thatis directlyproportional to itsdisplacement fromequilibriuma wave thatbouncesback into theoriginalmediumincidentwavethe shortestdistance betweentwo points wherethe wave patternrepeats itselfnodethehighestpoint on awaveA wave thatparticles vibrateboth parallel andperpendicular tothe waves motion frequencywavepulsemediumsurfacewaveperiodicwavereflectedwavethe line thatis drawn toshow thedirection of awavewavelengthThemaximumdisplacementfromequilibriumthe motion ofan objectthat repeatsitself.a wave thatparticles vibrateperpendicularto the wavesmotionprinciple ofsuperpositionrefractionthe time it takesto complete anumber ofcycles in a givenamount of timewhen twowaves canoccupy thesame place andthe same timeThe amount oftime it takes anobject to makeone completecycle of motionA singledisturbance orpulse thattravels througha medium.an angle ofincidenceequals angleof reflectionPeriodresonancewhen two wavesmeet that are thesame, buttraveling indifferent directionsantinodependuluma device thatshows simpleharmonicmotion with abob swingingon a stringcrestlongitudinalwaveA mechanicalwave thatmoves upand down atthe same ratewhen twowaves acttogether tomake a newwaveHooke’sLawthe bendingof a wave asit travels fromone mediumto anotherstandingwaveSimpleHarmonicMotionTrougha special occurrencewhen small vibrationsare added to theenergy of a vibratingobject to make theamplitude of thevibrations increase.rayamplitudea wave thatparticlesvibrateparallel to thewaves motionwavefrontPeriodicmotiontransversewavenormalthe wavethat hits aboundaryinterferencethe linerepresentingthe crest of awave in twodimensionswavethe lowestpoint on awavea spot whentwo wavesmeet to makethe greatestamplitudethe spot whentwo wavesmeet to have adisplacement ofzeroa disturbancethat carriesenergy throughmatter orspace.the material amechanicalwave cantravel throughLaw ofReflectiona line drawnperpendicularto the surfaceat which awave hits aboundaryThe force actingon a spring isdirectlyproportional to theamount that thespring is stretchedthe motion of anobject with arestoring force thatis directlyproportional to itsdisplacement fromequilibriuma wave thatbouncesback into theoriginalmediumincidentwavethe shortestdistance betweentwo points wherethe wave patternrepeats itselfnodethehighestpoint on awaveA wave thatparticles vibrateboth parallel andperpendicular tothe waves motion frequencywavepulsemediumsurfacewaveperiodicwavereflectedwavethe line thatis drawn toshow thedirection of awavewavelengthThemaximumdisplacementfromequilibriumthe motion ofan objectthat repeatsitself.a wave thatparticles vibrateperpendicularto the wavesmotionprinciple ofsuperpositionrefractionthe time it takesto complete anumber ofcycles in a givenamount of timewhen twowaves canoccupy thesame place andthe same timeThe amount oftime it takes anobject to makeone completecycle of motionA singledisturbance orpulse thattravels througha medium.an angle ofincidenceequals angleof reflectionPeriodresonancewhen two wavesmeet that are thesame, buttraveling indifferent directionsantinodependuluma device thatshows simpleharmonicmotion with abob swingingon a stringcrestlongitudinalwaveA mechanicalwave thatmoves upand down atthe same ratewhen twowaves acttogether tomake a newwaveHooke’sLawthe bendingof a wave asit travels fromone mediumto anotherstandingwaveSimpleHarmonicMotionTrougha special occurrencewhen small vibrationsare added to theenergy of a vibratingobject to make theamplitude of thevibrations increase.rayamplitudea wave thatparticlesvibrateparallel to thewaves motionwavefrontPeriodicmotiontransversewavenormalthe wavethat hits aboundaryinterferencethe linerepresentingthe crest of awave in twodimensions

Simple Harmonic Motion Vocab - Call List

(Print) Use this randomly generated list as your call list when playing the game. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.


1
I
2
G
3
G
4
N
5
I
6
O
7
O
8
N
9
G
10
B
11
G
12
I
13
B
14
I
15
I
16
O
17
G
18
O
19
B
20
I
21
B
22
O
23
I
24
N
25
N
26
B
27
O
28
B
29
B
30
I
31
B
32
I
33
N
34
G
35
I
36
G
37
O
38
G
39
N
40
O
41
N
42
O
43
G
44
I
45
N
46
O
47
N
48
O
49
G
50
B
51
G
52
G
53
B
54
N
55
B
56
B
57
I
58
N
59
O
60
B
  1. I-wave
  2. G-the lowest point on a wave
  3. G-a spot when two waves meet to make the greatest amplitude
  4. N-the spot when two waves meet to have a displacement of zero
  5. I-a disturbance that carries energy through matter or space.
  6. O-the material a mechanical wave can travel through
  7. O-Law of Reflection
  8. N- a line drawn perpendicular to the surface at which a wave hits a boundary
  9. G-The force acting on a spring is directly proportional to the amount that the spring is stretched
  10. B-the motion of an object with a restoring force that is directly proportional to its displacement from equilibrium
  11. G-a wave that bounces back into the original medium
  12. I-incident wave
  13. B-the shortest distance between two points where the wave pattern repeats itself
  14. I-node
  15. I-the highest point on a wave
  16. O- A wave that particles vibrate both parallel and perpendicular to the waves motion
  17. G-frequency
  18. O-wave pulse
  19. B-medium
  20. I-surface wave
  21. B-periodic wave
  22. O-reflected wave
  23. I- the line that is drawn to show the direction of a wave
  24. N-wavelength
  25. N-The maximum displacement from equilibrium
  26. B-the motion of an object that repeats itself.
  27. O-a wave that particles vibrate perpendicular to the waves motion
  28. B-principle of superposition
  29. B-refraction
  30. I-the time it takes to complete a number of cycles in a given amount of time
  31. B-when two waves can occupy the same place and the same time
  32. I-The amount of time it takes an object to make one complete cycle of motion
  33. N-A single disturbance or pulse that travels through a medium.
  34. G-an angle of incidence equals angle of reflection
  35. I-Period
  36. G-resonance
  37. O-when two waves meet that are the same, but traveling in different directions
  38. G-antinode
  39. N-pendulum
  40. O-a device that shows simple harmonic motion with a bob swinging on a string
  41. N-crest
  42. O-longitudinal wave
  43. G-A mechanical wave that moves up and down at the same rate
  44. I-when two waves act together to make a new wave
  45. N-Hooke’s Law
  46. O-the bending of a wave as it travels from one medium to another
  47. N-standing wave
  48. O-Simple Harmonic Motion
  49. G-Trough
  50. B- a special occurrence when small vibrations are added to the energy of a vibrating object to make the amplitude of the vibrations increase.
  51. G-ray
  52. G-amplitude
  53. B-a wave that particles vibrate parallel to the waves motion
  54. N-wave front
  55. B-Periodic motion
  56. B-transverse wave
  57. I-normal
  58. N-the wave that hits a boundary
  59. O-interference
  60. B-the line representing the crest of a wave in two dimensions