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Tides

Tides. Tidal Characteristics. single waves - stretch across entire ocean basins. shallow-water waves wavelengths greatly exceed the depth of the ocean. complex interactions of moon and sun. Origin of the Tides.

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Tides

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  1. Tides

  2. Tidal Characteristics • single waves - stretch across entire ocean basins. • shallow-water waves • wavelengths greatly exceed the depth of the ocean. • complex interactions of moon and sun

  3. Origin of the Tides • Unlike wind-driven surface waves and unlike tsunamis, tides are caused by two principal factors: • Gravitational attraction • Centrifugal force

  4. Gravitational Attraction • All masses are drawn to each other. • The moon because of its closeness to the Earth exerts a greater gravitational effect on the Earth than the Sun, despite the fact that the Sun is much more massive than the Moon.

  5. Gravitational Effect of Moon

  6. Animation courtesy of NASA Goddard Space Flight Center: The Moon's gravity tugs at the Earth, causing ocean water to slosh back and forth in predictable waves called tides. We can visibly observe some of that energy dissipate at the beach, with waves rolling across coastal shallows and shoals. Most of the energy dissipates due to friction between the water and the shallow floor beneath it

  7. Centrifugal Force • Earth and Moon revolving around one another. • unequal masses of Earth and Moon • center of rotation lies beneath the Earth’s surface. • second tidal bulge • ocean shifts away from center of rotation

  8. Centrifugal Forces: Center of Rotation

  9. 2 Bulges from Gravitational Attraction & Centrifugal Force

  10. Animation

  11. Dynamic Model of the Tides

  12. True Tidal Waves (not tsunamis!) • The motion of water around the basin is a rotary wave. • The crest is at one side of the basin. • The trough is at the other side of the basin. • Tides have characteristics of both progressive and standing waves.

  13. Standing Waves • Sea, swell, and surf are progressive waves. • Standing waves (seiches)… • Oscillate back and forth about a node,i.e., a fixed point.

  14. Node = Fixed Point Antinode = maximum displacement

  15. Dynamic Model of theTides

  16. Dynamic Model of theTides Earth rotates from W to E Tidal bulge to W Pressure Gradient Coriolis cut-away Pressure Gradient Coriolis Pressure Gradient Coriolis cut-away

  17. Dynamic Model • equilibrium model of the tides is good, BUT... • not totally detailed and accurate • oceans are separated by continents • oceans not infinitely deep

  18. Animation courtesy of NASA Goddard Space Flight Center: Using 6 years of data from TOPEX/Poseidon satellite altimeter, they derived a 16-day set of predictive data, showing a synthetic view of how the tides move around the world's oceans.

  19. Key Features of Tides • High tide : Wave crest • Low tide : Wave trough • Tidal range : Wave height • Tidal periods depending on location: • 12 hours, 25 minutes • 24 hours, 30 minutes

  20. Wave Parameters

  21. Tidal Periods • why not exactly 24 hours or 12 hours? • Moon moves forward in it’s orbit each day. • Takes 50 additional minutes for a spot on the Earth’s surface to regain it’s position relative to the Moon.

  22. Classification by Daily Record • Diurnal: have one high tide and one low tide daily (high lat). • Semidiurnal: have two high tides and two low tides daily (low lat). • Mixed: there are two high tides and two low tides daily, but of unequal shape(mid lat).

  23. Classification by Monthly Record • Spring tide: phase when tidal range is maximal. • Neap tide: phase when tidal range is minimal. • There are 2 spring and 2 neap tides each month

  24. Spring & Neap Tides • Spring tides occur when the Earth, Sun, and Moon are aligned. • New Moon and Full Moon phases • Constructive interference • Neap tides occur when the Sun and Moon are aligned at right angles to one another. • Quarter Moon phases • Destructive interference

  25. Sun/Moon/Earth - Spring & Neap

  26. Can you read a tide table?

  27. Marine Biorhythms • Cyclical behaviors associated with tidal rhythms. • The diurnal activity of fiddler crabs. • The spawning behavior of the grunion fish.

  28. Diurnal Activity of Fiddler Crabs Natural Searching for food in burrows

  29. Movie TriviaJeopardy, 1953, Barbara Stanwyck

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