chapter 1 clickers chapter 8 lecture essentials of oceanography · 2015-01-28 · © 2014 pearson...
TRANSCRIPT
![Page 1: Chapter 1 Clickers Chapter 8 Lecture Essentials of Oceanography · 2015-01-28 · © 2014 Pearson Education, Inc. Waves and Water Dynamics Chapter 1 Clickers Essentials of Oceanography](https://reader033.vdocuments.site/reader033/viewer/2022053000/5f048bdc7e708231d40e819c/html5/thumbnails/1.jpg)
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Waves and Water
Dynamics
Chapter 1 Clickers
Essentials of OceanographyEleventh Edition
Alan P. Trujillo
Harold V. Thurman
Chapter 8 Lecture
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Chapter Overview
• Most waves are wind-driven.
• Most waves are generated by storms.
• Waves transmit energy across the ocean surface.
• Deep water and surf zone waves have different characteristics.
• Tsunami are special fast, long waves generated by seismic events.
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Wave Generation
• Disturbing force causes waves to form.• Wind blowing across ocean surface• Interface of fluids with different densities
• Air – ocean interface– Ocean waves
• Air – air interface – Atmospheric waves
• Water – water interface – Internal waves
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Types of Waves
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Internal Waves
• Associated with pycnocline
• Larger than surface waves
• Caused by tides, turbidity currents, winds, ships
• Possible hazard for submarines
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Wave Movement
• Waves transmit energy
• Cyclic motion of particles in ocean– Particles may move
• Up and down• Back and forth• Around and around
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Progressive Waves
• Progressive waves oscillate uniformly and progress without breaking– Longitudinal
– Transverse
– Orbital
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Longitudinal Waves
• Also called push-pull waves
• Compress and decompress as they travel, like a coiled spring
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Transverse Waves
• Also called side-to-side waves
• Energy travels at right angles to direction of moving particles.
• Generally only transmit through solids, not liquids
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Orbital Waves
• Also called interface waves
• Waves on ocean surface
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Wave Terminology
• Crest
• Trough
• Still water level
– Zero energy level
• Wave height (H)
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Orbital Wave Characteristics
• Wave steepness = H/L– If wave steepness > 1/7, wave breaks
• Wave period (T) = time for one wavelength to pass fixed point
• Wave frequency = inverse of period or 1/T
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Orbital Wave Characteristics
• Diameter of orbital motion decreases with depth of water.
• Wave base = ½ L
• Hardly any motion below wave base due to wave activity
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Circular Orbital Motion
• Wave particles move in a circle.
• Waveform travels forward.
• Wave energy advances.
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Deep Water Waves
• Wave base – depth where orbital movement of water particles stops
• If water depth is greater than wave base (>½L), wave is a deep water wave.
• Lack of orbital motion at depth useful for floating runways and other structures
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Deep Water Waves
• All wind-generated waves in open ocean
• Wave speed = wavelength (L)/period (T)
• Speed called celerity (C)
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Speed of Deep Water Waves
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Shallow-Water Waves
• Water depth (d) is less than 1/20 L – Water “feels” seafloor
• C (meters/sec) = 3.13 √ d(meters) or • C (feet/sec) = 5.67 √d (feet)
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Transitional Waves
• Characteristics of both deep- and shallow-water waves
• Celerity depends on both water depth and wavelength
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Wind-Generated Wave Development
• Capillary waves• Wind generates stress on sea surface
• Gravity waves– Increasing wave energy
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Wind Generated Wave Development
• Capillary Waves– Ripples
– Wind generates initial stress on sea surface
• Gravity Waves– More energy transferred to ocean
– Trochoidal waveform as crests become pointed
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Sea
• Sea
– Where wind-driven waves are generated
– Also called sea area
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Factors Affecting Wave Energy
• Wind speed
• Wind duration
• Fetch – distance over which wind blows
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Wave Height
• Directly related to wave energy
• Wave heights usually less than 2 meters (6.6 feet)
• Breakers called whitecaps form when wave reaches critical steepness.
• Beaufort Wind Scale describes appearance of sea surface.
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Global Wave Heights
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Beaufort Wind Scale
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Maximum Wave Height
• USS Ramapo (1933): 152-meters (500 feet) long ship caught in Pacific typhoon
• Waves 34 meters (112 feet) high
• Previously thought waves could not exceed 60 feet
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Wave Damage
• USS Ramapo undamaged
• Other craft not as lucky
• Ships damaged or disappear annually due to high storm waves
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Wave Energy
• Fully developed sea– Equilibrium condition
– Waves can grow no further
• Swell– Uniform, symmetrical waves that travel outward
from storm area– Long crests– Transport energy long distances
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Fully Developed Sea
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Swells
• Longer wavelength waves travel faster and outdistance other waves.– Wave train – a group of waves with similar
characteristics
– Wave dispersion – sorting of waves by wavelengths
– Decay distance – distance over which waves change from choppy sea to uniform swell
• Wave train speed is ½ speed of individual wave.
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Wave Train Movement
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Wave Interference Patterns
• Collision of two or more wave systems
• Constructive interference– In-phase wave
trains with about the same wavelengths
• Destructive interference– Out-of-phase wave
trains with about the same wavelengths
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Wave Interference Patterns
• Mixed interference– Two swells with
different wavelengths and different wave heights
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Rogue Waves
• Massive, spontaneous, solitary ocean waves
• Reach abnormal heights, enormous destructive power
• Luxury liner Michelangelo
damaged in 1966
• Basis of The Perfect Storm
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Rogue Waves
• Difficult to forecast
• Occur more near weather fronts and downwind of islands
• Strong ocean currents amplify opposing swells
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Waves in Surf Zone
• Surf zone – zone of breaking waves near shore
• Shoaling water – water becoming gradually more shallow
• When deep water waves encounter shoaling water less than ½ their wavelength, they become transitional waves.
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Waves Approaching Shore
• As a deep-water wave becomes a shallow-water wave:– Wave speed decreases
– Wavelength decreases
– Wave height increases
– Wave steepness (height/wavelength) increases
– When steepness > 1/7, wave breaks
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Waves Approaching Shore
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Breakers in Surf Zone
• Surf as swell from distant storms– Waves break close to shore
– Uniform breakers
• Surf generated by local winds– Choppy, high energy, unstable water
• Shallow water waves
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Three Types of Breakers
• Spilling
• Plunging
• Surging
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Spilling Breakers
• Gently sloping sea floor
• Wave energy expended over longer distance
• Water slides down front slope of wave
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Plunging Breakers
• Moderately steep sea floor
• Wave energy expended over shorter distance
• Best for board surfers
• Curling wave crest
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Surging Breakers
• Steepest sea floor
• Energy spread over shortest distance
• Best for body surfing
• Waves break on the shore
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Surfing
• Like riding a gravity-operated water sled
• Balance of gravity and buoyancy
• Skilled surfers position board on wave front– Can achieve speeds up to 40 km/hour
(25 miles/hour)
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Wave Refraction
• Waves rarely approach shore at a perfect 90-degree angle.
• As waves approach shore, they bend so wave crests are nearly parallel to shore.
• Wave speed is proportional to the depth of water (shallow-water wave).
• Different segments of the wave crest travel at different speeds.
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Wave Refraction
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Wave Refraction
• Wave energy unevenly distributed on shore
• Orthogonal lines or wave rays – drawn perpendicular to wave crests– More energy
released on headlands
– Energy more dissipated in bays
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Wave Refraction
• Gradually erodes headlands
• Sediment accumulates in bays
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Wave Reflection
• Waves and wave energy bounced back from barrier
• Reflected wave can interfere with next incoming wave.
• With constructive interference, can create dangerous plunging breakers
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Standing Waves
• Two waves with same wavelength moving in opposite directions
• Water particles move vertically and horizontally.
• Water sloshes back and forth.
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Standing Waves
• Nodes have no vertical movement
• Antinodes are alternating crests and troughs.
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Tsunami
• Seismic sea waves
• Originate from sudden sea floor topography changes– Earthquakes – most common cause
– Underwater landslides
– Underwater volcano collapse
– Underwater volcanic eruption
– Meteorite impact – splash waves
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Tsunami Characteristics
• Long wavelengths (> 200 km or 125 miles)
• Behaves as a shallow-water wave– Encompasses entire water column, regardless of
ocean depth
– Can pass undetected under boats in open ocean
• Speed proportional to water depth– Very fast in open ocean
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Tsunami
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Tsunami Destruction
• Sea level can rise up to 40 meters (131 feet) when a tsunami reaches shore.
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Tsunami
• Most occur in Pacific Ocean – More earthquakes and
volcanic eruptions
• Damaging to coastal areas
• Loss of human lives
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Historical Tsunami
• Krakatau – 1883 – Indonesian volcanic eruption
• Scotch Cap, Alaska/Hilo, Hawaii – 1946 – Magnitude 7.3 earthquake in Aleutian Trench
• Papua New Guinea – 1998– Pacific Ring of Fire magnitude 7.1 earthquake
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Historical Large Tsunami
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Historical Large Tsunami
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Indian Ocean Tsunami
• December 26, 2004– Magnitude 9.2
earthquake off coast of Sumatra
– 1200 km seafloor displaced between two tectonic plates
– Deadliest tsunami in history
– Coastal villages completely wiped out
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Indian Ocean Tsunami
• Detected by Jason-1 satellite
• Traveled more than 5000 km (3000 mi)
• Wavelength about 500 km (300 mi)
• 230,000–300,000 people in 11 countries killed
• Lack of warning system in Indian Ocean
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Japan Tsunami
• March 11, 2011 – Tohoku Earthquake– Magnitude 9.0 earthquake in Japan Trench
– Felt throughout Pacific basin
– Most expensive tsunami in history
• Initial surge 15 meters (49 ft)– Topped harbor-protecting tsunami walls
– Amplified by local topography
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Japan Tsunami
• Killed 19,508 people
• Disrupted power at Fukushima Daiichi nuclear power plant– Reactors exploded
– Radioactivity problem initiated
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Tsunami Warning System
• Pacific Tsunami Warning Center (PTWC) – Honolulu, HI– Uses seismic wave
recordings to forecast tsunami
• Deep Ocean Assessment and Reporting of Tsunami (DART) – System of buoys– Detects pulse of tsunami
passing
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Tsunami Watches and Warnings
• Tsunami Watch –issued when potential for tsunami exists
• Tsunami Warning –unusual wave activity verified – Evacuate people
– Move ships from harbors
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Waves as Source of Energy
• Lots of energy associated with waves
• Mostly with large storm waves– How to protect power plants
– How to produce power consistently
• Environmental issues– Building power plants close to shore
– Interfering with life and sediment movement
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Wave Power Plant
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Wave Power Plants
• First commercial wave power plant began operating in 2000.
• LIMPET 500 – Land Installed Marine Powered Energy Transformer– Coast of Scotland
– 500 kilowatts of power under peak operating capacity
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Wave Farms
• Portugal – 2008– Ocean Power
Delivery
– First wave farm
• About 50 wave power development projects globally
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Global Wave Energy Resources
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End of CHAPTER 8Waves and Water Dynamics