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Ocean Currents

Ocean Currents. Science 6 Hill Oceans. What is a Current?. A current is a continuous flow of water in a given direction A current is like a river in the ocean. Types of Ocean Currents. There are two types of currents in the ocean: Surface Currents Density Currents.

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Ocean Currents

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  1. Ocean Currents Science 6 Hill Oceans

  2. What is a Current? A current is a continuous flow of water in a given direction A current is like a river in the ocean

  3. Types of Ocean Currents There are two types of currents in the ocean: Surface Currents Density Currents

  4. Causes of Surface Currents Three things cause surface currents: • Wind 2. Continents 3. Rotation of the Earth, also known as the Coriolis Effect

  5. Heating of the Earth’s Surface • The sun’s rays strike the Earth at different angles • At the equator, the rays strike the Earth almost perpendicular to its surface, warming up a small area. • At high latitudes, the curve of the Earth causes the rays to strike a larger surface area-So the same amount of heat is distributed over a larger area. • The farther from the equator, the cooler the Earth

  6. What Causes the Wind? • This difference in temperature between the equator and the poles causes our atmosphere and ocean to circulate. • What does warm air do? (It rises) • What does cooler air do? _______________ • This exchange of warm air and cool air causes the winds that prevail over the Earth.

  7. How does air flow over the Earth? Fig. 16-1, p.378

  8. Prevailing Winds Fig. 16.14, p.407

  9. Surface Ocean Currents • Surface currents are caused by the transfer of energy from winds. • Surface currents occur in the top 100 – 300 m of water. • Example: Gulf Stream – 80km wide, 5km velocity (at fastest) • Gyre – circuit of currents around the periphery of an ocean basin (e.g. Gulf Stream is part of the North Atlantic Gyre)

  10. The water of the ocean surface moves in a regular pattern called surface ocean currents. The currents are named. In this map, warm currents are shown in red and cold currents are shown in blue.

  11. Pictured above is the East Coast of the United States, in grey, with the Gulf Stream, in yellow and orange, revealed through Sea Surface Temperature data (SST), made from the MODIS instrument on the Terra satellite. In this image, blue represents the coldest temperatures (between 1-10 °C) and orange and yellow represent the warmest temperatures (between 19-30°C). The Gulf Stream is readily visible as the warmest water in the image.

  12. The Gulf Stream

  13. Land Masses Cause Ocean Currents • Continents block the flow of currents created by the wind. • What must the currents do if they come upon an obstacle in their way?

  14. How does a land mass affect a current? Fig. 16-1, p.378

  15. The water of the ocean surface moves in a regular pattern called surface ocean currents. The currents are named. In this map, warm currents are shown in red and cold currents are shown in blue.

  16. Surface-Ocean Currents • Most are part of the gyres that circulate in the ocean basins • Gyres circulate clockwisein the northern hemisphere • Gyres circulate counterclockwise in the southern hemisphere • Why?

  17. Observe direction of circulation of gyres Fig. 16-12, p.384

  18. The Coriolis Effect • The Coriolis Effect is caused by the Earth’s rotation. • Because the Earth is spinning objects do not move above it in a straight line. • Objects are deflected in a curved path. • This is what causes clouds in a hurricane to swirl. • This is also why winds and currents move in circular paths

  19. Coriolis Effect • Why don’t we notice the Coriolis Effect? • Something has to move a very long way before the Coriolis effect is noticeable - at least several hundred miles. • For example, if you throw a football the path only curves a tiny bit due to the Coriolis effect - far too small for you to ever notice.

  20. Coriolis Effect Animation • Click below for animation • http://www.classzone.com/books/earth_science/terc/content/visualizations/es1904/es1904page01.cfm • Merry-go round • Click here

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