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Subject BiographyExerciseCompetence Indikator
Pendidikan fisika pgmipa-u 2014 UNIVERSITAS JAMBIPendidikan fisik...
Menu Utama
Subject BiographyExerciseCompetence Indikator
endidikan fisika pgmipa-u 2014 UNIVERSITAS JAMBIendidikan fisika ...
Menu Utama
Subject BiographyExerciseCompetence Indikator
understanding
wave
Types of waves in the
Direction of vibration
B...
Competence
• Describe the symptoms and
characteristics of waves in general
Indikator
Identify characteristics transfersal and longitudinal
waves
Identify the characteristics of mechanical and
ele...
• E.g Waves
Understanding wave
Waves are vibrations that
propagate energy from one place to
another, either through the medium
or no.
Types of waves in the
direction of vibration
Wave
Wave
Longitudinal waves
Density Density
Renggangan Renggangan
Wave length = distance traveled by the wave during an interv...
Wave
Vibration direction perpendicular to the
direction of propagation
Direction of propagation
Vibration direction
Vibrat...
Based on the type of
wave propagation
medium
understanding wave
Mechanical wave
Mechanical wave is a wave that is
necessary for propagation medium.
example: waves on a string, water
surf...
Electromagnetic wave
Electromagnetic wave is wave
propagation does not require a
medium. example: light waves, radio
waves...
Based on the type of
wave amplitude
Traveling wave
• Traveling wave is the wave amplitude
is fixed at a point in its path.
Stationary wave
• Stationary wave is a wave whose
amplitude is not fixed at a point in its
path.
Properties of waves
Properties of waves
1. waves can be reflected (reflection)
2. The waves can be refracted (refraction)
3. The wave can be b...
Wave reflection
• when a propagating wave and hard on
the field delimiter.
the angle of incidence (i) = angle of
reflectio...
Wave refraction
• refraction that changes the direction of
the wave when the wave into the new
medium which resulted in a ...
Diffracted wave
Bending waves
caused by the
presence of a
barrier in the
form of a gap.
Interferensi wave
Interferensi terjadi
pada dua
gelombang
koheren, yaitu
gelombang yang
memiliki frekuensi
dan beda fase
y...
Wave dispersion
Dispersion is
spreading or
decomposition of
the waveform when
passing through a
particular medium.
Polarization wave
Namely polarization
vector vibration
restriction process
that forms a
transverse wave so
that it becomes...
Stationary Wave
Equation and
Traveling Wave
Traveling wave equation
•
Understand deviation traveling
wave equation
Deviation general traveling
wave equation
point of origin to the top
point of origin to the bottom
propagating to the left...
Angular frequency and wave
number
angular frequence
wave numbers
Phase difference
phase difference between point A and point
B
Stationary wave equation led to
remain
Stationary lead-free wave
equation
Stationary wave amplitude and
position of the stomach / node,
the rope lead-free
Mendle law
Melde law
Law seconds Report learn about quantities that
affect the rapid propagation of transverse waves on
a string. Thr...
Wave propagation speed = distance of
waves per unit of time (second).
S = distance (meters) T = period (seconds)
t = time ...
Biography
Name : Meri Andani
TTL : Palembang, 23 MAY 1996
Agama : Islam
Address : Lubuk Linggau
E-mail : meriandani58@gmai...
WAVES
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WAVES

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WAVES

  1. 1. Menu Utama Subject BiographyExerciseCompetence Indikator Pendidikan fisika pgmipa-u 2014 UNIVERSITAS JAMBIPendidikan fisika pgmipa-u 2014 UNIVERSITAS JAMBIPendidikan fisika pgmipa-u 2014 UNIVERSITAS JAMBIPendidikan fisika pgmipa-u 2014 UNIVERSITAS JAMBI
  2. 2. Menu Utama Subject BiographyExerciseCompetence Indikator endidikan fisika pgmipa-u 2014 UNIVERSITAS JAMBIendidikan fisika pgmipa-u 2014 UNIVERSITAS JAMBIPendidikan fisika pgmipa-u 2014 UNIVERSITAS JAMBIendidikan fisika pgmipa-u 2014 UNIVERSITAS JAMBI
  3. 3. Menu Utama Subject BiographyExerciseCompetence Indikator understanding wave Types of waves in the Direction of vibration Based on the of wave Propragation medium Based on the type of Wave amplitude Properties of wave Stationary wave equation and traveling wave Pendidikan fisika pgmipa-u 2014 UNIVERSITAS JAMBIPendidikan fisika pgmipa-u 2014 UNIVERSITAS JAMBIPendidikan fisika pgmipa-u 2014 UNIVERSITAS JAMBIendidikan fisika pgmipa-u 2014 UNIVERSITAS JAMBI
  4. 4. Competence • Describe the symptoms and characteristics of waves in general
  5. 5. Indikator Identify characteristics transfersal and longitudinal waves Identify the characteristics of mechanical and electromagnetic waves Investigate the properties of waves (reflection / refraction, superposition, interference, dispersion, diffraction, danpolarisasi) and penerapnnya in everyday life Identify the wave equation and stationary wave
  6. 6. • E.g Waves
  7. 7. Understanding wave Waves are vibrations that propagate energy from one place to another, either through the medium or no.
  8. 8. Types of waves in the direction of vibration
  9. 9. Wave
  10. 10. Wave Longitudinal waves Density Density Renggangan Renggangan Wave length = distance traveled by the wave during an interval of one period through which the medium particle vibration wave. Period particle vibration medium through which the wave is called the wave period.
  11. 11. Wave Vibration direction perpendicular to the direction of propagation Direction of propagation Vibration direction Vibration direction aligned with the direction of propagation Direction of propagation Vibration direction Wave is the propagation of vibration Wave Transverse waves Longitudinal waves
  12. 12. Based on the type of wave propagation medium
  13. 13. understanding wave
  14. 14. Mechanical wave Mechanical wave is a wave that is necessary for propagation medium. example: waves on a string, water surface waves and sound waves
  15. 15. Electromagnetic wave Electromagnetic wave is wave propagation does not require a medium. example: light waves, radio waves, X-rays, beta and gamma
  16. 16. Based on the type of wave amplitude
  17. 17. Traveling wave • Traveling wave is the wave amplitude is fixed at a point in its path.
  18. 18. Stationary wave • Stationary wave is a wave whose amplitude is not fixed at a point in its path.
  19. 19. Properties of waves
  20. 20. Properties of waves 1. waves can be reflected (reflection) 2. The waves can be refracted (refraction) 3. The wave can be bent (diffraction) 4. The wave can be combined (interference) 5. waves can be dispersed 6. waves can be polarized
  21. 21. Wave reflection • when a propagating wave and hard on the field delimiter. the angle of incidence (i) = angle of reflection (r)
  22. 22. Wave refraction • refraction that changes the direction of the wave when the wave into the new medium which resulted in a wave moving at different speeds. sin i / sin r = V1 / V2 or sin i / sin r = n1 / n2
  23. 23. Diffracted wave Bending waves caused by the presence of a barrier in the form of a gap.
  24. 24. Interferensi wave Interferensi terjadi pada dua gelombang koheren, yaitu gelombang yang memiliki frekuensi dan beda fase yang sama.
  25. 25. Wave dispersion Dispersion is spreading or decomposition of the waveform when passing through a particular medium.
  26. 26. Polarization wave Namely polarization vector vibration restriction process that forms a transverse wave so that it becomes one-way.
  27. 27. Stationary Wave Equation and Traveling Wave
  28. 28. Traveling wave equation •
  29. 29. Understand deviation traveling wave equation
  30. 30. Deviation general traveling wave equation point of origin to the top point of origin to the bottom propagating to the left propagate to the right
  31. 31. Angular frequency and wave number angular frequence wave numbers
  32. 32. Phase difference phase difference between point A and point B
  33. 33. Stationary wave equation led to remain
  34. 34. Stationary lead-free wave equation
  35. 35. Stationary wave amplitude and position of the stomach / node, the rope lead-free
  36. 36. Mendle law
  37. 37. Melde law Law seconds Report learn about quantities that affect the rapid propagation of transverse waves on a string. Through experiments seconds Report found that the wave propagation speed is proportional to the root of the wire rope tension force and inversely proportional to the mass of roots of unity length strings.
  38. 38. Wave propagation speed = distance of waves per unit of time (second). S = distance (meters) T = period (seconds) t = time (seconds) f = frequency (hertz) v = fast propagation (Meters / second) Frequency is the number of waves that pass a point every second T v λ = t S v = fxv λ=
  39. 39. Biography Name : Meri Andani TTL : Palembang, 23 MAY 1996 Agama : Islam Address : Lubuk Linggau E-mail : meriandani58@gmail.com Status : Jambi University Students, Faculty Teacher Training and Education, Departement Of Mathematics and NaturalL Science, Physics Education Prodi PGMIPA-U.

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