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Chapter 8 Waves and Water Dynamics

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... produces large waves at 'The Wedge' near Newport Harbor, California ... Once a large earthquake occurs, the tsunami must be verified at a nearby station ... – PowerPoint PPT presentation

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Title: Chapter 8 Waves and Water Dynamics


1
Chapter 8 Waves and Water Dynamics
2
What causes waves?
  • Waves are created by a disturbance (releases of
    energy) including
  • Wind
  • Movement of fluids of different densities
  • Mass movement into the ocean (splash waves)
  • Underwater sea floor movement (tsunami)
  • Pull of the Moon and Sun (tides)
  • Human activities

3
What is a wave
  • A wave is the propagation of energy, without a
    equal propagation of mass
  • Watch the slinky
  • How is energy propagated?
  • Watch the rope
  • How is energy propagated

4
Types of progressive waves
  • Longitudinal
  • Back-and-forth motion
  • Transverse
  • Side-to-side motion
  • Orbital
  • Combination

5
Circular orbital motion
  • As a wave travels, the water passes the energy
    along by moving in a circular orbit
  • Floating objects also follow circular orbits

6
Wave characteristics and terminology
  • Crest
  • Trough
  • Wave height (H)
  • Wavelength (L)
  • Still water level
  • Orbital motion

7
Wave characteristics terminology
  • If wave steepness exceeds 1/7, the wave breaks
  • Period (T) the time it takes one full waveone
    wavelengthto pass a fixed position

8
Orbital motion in waves
  • Orbital size decreases with depth to zero at wave
    base
  • Depth of wave base 1/2 wavelength, measured
    from still water level

9
Deep- and shallow-water waves
  • Water depthgtwave base

10
Deep- and shallow-water waves
  • Shallow-water waves
  • Water depth lt 1/20 of wavelength

11
Deep- and shallow-water waves
  • Transitional waves
  • Water depth lt wave base but also gt 1/20 of
    wavelength

12
Wave speed (S)
  • General formula
  • Deep-water waves
  • Wave speed (S) in meters per second 1.56 T in
    seconds
  • Shallow-water waves (d water depth)

13
Wind Generated Waves
Restoring Force Surface Tension
Restoring Force Gravity
14
Waves
  • Factors that increase wave intensity
  • Increasing wind speed
  • Increasing duration (time) of wind
  • Increasing fetch (distance)
  • Example, the Southern Ocean high seas
  • A fully developed sea is the maximum height of
    waves produced by conditions of wind speed,
    duration, and fetch

15
The sea
  • Waves originate in a sea area

16
The sea and swell
  • Swell describes waves that
  • Have traveled out of their area of origination
  • Exhibit a uniform and symmetrical shape

17
Wave dispersion
  • Remember the equation for wave speed
  • Waves with the longest wavelengths move fastest
  • Long wavelength swells separate from short
    wavelength
  • Separation of waves based on wavelength is called
    Dispersion

18
Interference patterns
  • Constructive
  • Adding
  • Destructive
  • Subtraction
  • Mixed
  • Both

19
Waves undergo physical changes in the surf zone
20
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21
Types of breakers
  • Spilling breakers
  • Gentle beach slope allows waves to disperse
    energy gradually
  • Plunging breakers
  • Moderately steep beach slope gives waves a
    curling shape that propels surfers
  • Surging breakers
  • Abrupt beach slope makes waves build up and
    break rapidly at the shore

22
Wave refraction
  • As waves approach shore, the part of the wave in
    shallow water slows down
  • The part of the wave in deep water continues at
    its original speed
  • Causes wave crests to refract (bend)
  • Results in waves lining up nearly parallel to
    shore

23
Wave refraction, straight shoreline
24
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25
Wave refraction, irregular shoreline
  • Orthogonal lines denote areas of equal wave
    energy
  • Wave energy is concentrated at headlands and
    dispersed in bays

26
Refraction
27
Wave Reflection
  • When a wave impacts a solid object, the energy is
    reflected back
  • Different types of objects will reflect
    differently

Dr. Dan Russell Kettering University, Applied
Physics
Hard solid object
28
Wave Reflection
  • When a wave impacts a solid object, the energy is
    reflected back
  • Different types of objects will reflect
    differently

Dr. Dan Russell Kettering University, Applied
Physics
Soft solid object
29
The Wedge
  • Wave reflection produces large waves at The
    Wedge near Newport Harbor, California

30
Rip Tides
31
Rip Tides
32
Rip Tide
33
Rip Tide
34
Long Shore Currents
35
Tsunami
  • Tsunami terminology
  • Often called tidal waves but have nothing to do
    with the tides
  • Japanese term meaning harbor wave
  • Also called seismic sea waves
  • Created by movement of the ocean floor by
  • Underwater fault movement
  • Underwater avalanches
  • Underwater volcanic eruptions

36
Most tsunami originate from underwater fault
movement
37
Tsunami characteristics
  • Affect entire water column, so carry more energy
    than surface waves (deep wave base)
  • Can travel at speeds over 700 kilometers (435
    miles) per hour
  • Small wave height in the open ocean, so pass
    beneath ships unnoticed
  • Build up to extreme heights in shallow coastal
    areas (just like a normal wave, only bigger)

38
Tsunami
1960 Chilean earthquake, resulting Tsunami
39
Coastal effects of tsunami
  • If trough arrives first, appear as a strong
    withdrawal of water (similar to an extreme and
    suddenly-occurring low tide)
  • If crest arrives first, appear as a strong surge
    of water that can raise sea level many meters and
    flood inland areas
  • Tsunami often occur as a series of surges and
    withdrawals

40
What happens on land
41
Tsunami since 1990
  • Most tsunami are created near the margins of the
    Pacific Ocean along the Pacific Ring of Fire

42
Tsunami in 2004
  • Dec. 26 Tsunami
  • the most deadly natural disaster in history
  • Earthquake sites
  • Star- initial site
  • Circle- aftershocks
  • Contours
  • Hours after initial quake for first wave hit

43
Tsunami in 2004
  • Dec. 26 Tsunami
  • the most deadly natural disaster in history
  • Earthquake sites
  • Star- initial site
  • Circle- aftershocks
  • Contours
  • Hours after initial quake for first wave hit

44
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45
Tsunami warning system
  • Seismic listening stations track underwater
    earthquakes that could produce tsunami
  • Once a large earthquake occurs, the tsunami must
    be verified at a nearby station
  • If verified, a tsunami warning is issued
  • Successful in preventing loss of life (if people
    heed warnings)
  • Damage to property has been increasing
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