Difference between revisions of "Dynamic Planet/Oceanography"

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(Physical Oceanography and Weather)
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*significant wave height  
 
*significant wave height  
  
Another important aspect of this event (and Dynamic Planet topics in general) is understanding how to read a map. Reading maps is discussed in great detail in [[Road Scholar]] and [[Meteorology#How To read weather maps/satellite imagery|Meteorology]].
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Another important aspect of this event (and Dynamic Planet topics in general) is understanding how to read a map. Reading maps is discussed in great detail in [[Road Scholar]] and [[Meteorology#How To read weather maps/satellite imagery|Meteorology]]. You will need to know how to read a salinity graph and topographic maps.  
  
 
For division B, weather on the small scale will usually include such concepts as all types of fronts, various forms of precipitation, and basic weather prediction skills.  For division C, more knowledge of weather is required. You need to have an idea of the convection of air on the global scale: trade winds, prevailing westerlies, polar easterlies. Of course, the layers of the atmosphere are definitely good to know. You'll want to have a basic knowledge of El Niño too, which is a very important oceanography phenomenon.  Before there is the Walker circulation cell and rain and warm water is at the Southeast Asia side of the Pacific. There is upwelling near South America with cold water. El Nino is when the trade winds weaken and warm water from Southeast Asia go to West Pacific and there is no more upwelling and there is more rain. The Walker circulation cell has been broken and the trade winds reverse.  
 
For division B, weather on the small scale will usually include such concepts as all types of fronts, various forms of precipitation, and basic weather prediction skills.  For division C, more knowledge of weather is required. You need to have an idea of the convection of air on the global scale: trade winds, prevailing westerlies, polar easterlies. Of course, the layers of the atmosphere are definitely good to know. You'll want to have a basic knowledge of El Niño too, which is a very important oceanography phenomenon.  Before there is the Walker circulation cell and rain and warm water is at the Southeast Asia side of the Pacific. There is upwelling near South America with cold water. El Nino is when the trade winds weaken and warm water from Southeast Asia go to West Pacific and there is no more upwelling and there is more rain. The Walker circulation cell has been broken and the trade winds reverse.  
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'''Currents'''
 
'''Currents'''
It may be important to know the currents of our world. An easy thing to do is to memorize the map and use words that will remind you what the actual name is.  
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It may be important to know the currents of our world. An easy thing to do is to memorize the map and use words that will remind you what the actual name is.
 +
 
 
==Resources==
 
==Resources==
 
:[http://www.gfdl.noaa.gov/~a1g/science_olympiad.html A good starting resource]
 
:[http://www.gfdl.noaa.gov/~a1g/science_olympiad.html A good starting resource]

Revision as of 01:17, 23 October 2014

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This page is incomplete. It does not cover all important aspects of this subject. Please keep this in mind when reading the page and add relevant information if possible.
Dynamic Planet/Oceanography
Earth Science & Study Event
Forum Threads
2015
Previous Tests
The wiki test exchange has been discontinued as of 2020.
Current Test Exchange
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Question Marathons
2015
This event was not held recently in Division B
This event was not held recently in Division C


Oceanography was the topic of Dynamic Planet for the 2007 and 2008 seasons, and is once again the focus for the 2015 season.

Overview

During the 2007 season, this event focused on physical and geological oceanography. Physical oceanography is primarily concerned with the ocean as a physical system in which principles like conservation of mass, energy, momentum and spin play a huge role in determining what you see. Geological oceanography looks at the rocks and sediments on the ocean bottom and margins and tries to infer how that got that way and what that tells us about the history of the earth. It is also good to know about ocean currents, the thermohaline circulation, and physical features of the ocean floor. This year there will be stations and may have equipment.

The Competition

The competition consists of a test covering the geological and physical aspects of the Ocean. Sometimes this test will be presented in stations, and you will rotate from each every 10 minutes or so. To do well, you need to have a mix of practical and theoretical skills. Practical skills should involve knowing how to read plots and graphs, particularly line plots, scatterplots, and contour plots. Theoretical skills should include an understanding of the Coriolis force, surface waves, and how the ocean interacts with the atmosphere. You should also study ocean geography.

Reference Sheet

For additional note sheet tips, please see Note Sheets.

In 2008 teams were allowed a double sided reference sheet. As with all events, try to include charts/diagrams and pictures that would seem beneficial to you (ex. Diagram that includes mid-ocean ridge, trenches, abyssal plane, continental drift/slope, etc.). Type small enough that you can fit more information, but not too small that you have to strain yourself to read it. Make sure that you both know where everything is on the sheet. Organize the data in a logical way, such as properties of oceans in one text box, sizes of famous bodies of water in another, and so on and so forth. You can write on the reference sheet if you deem it necessary. To fit more information on the sheet, you can decrease the margins of the paper. Make sure they are double side not 4 one-sided papers. Please do not cheat and stick a third paper in side the sheet protector.

Physical Oceanography and Weather

Physical Oceanography can cover a lot of territory. Basically, you should have a firm knowledge of just about everything in the water that doesn't have to do with biology. Waves, tides, and currents are all subjects worth studying. A few examples of terms you should understand are as follows.

  • upwelling current
  • diurnal tide
  • significant wave height

Another important aspect of this event (and Dynamic Planet topics in general) is understanding how to read a map. Reading maps is discussed in great detail in Road Scholar and Meteorology. You will need to know how to read a salinity graph and topographic maps.

For division B, weather on the small scale will usually include such concepts as all types of fronts, various forms of precipitation, and basic weather prediction skills. For division C, more knowledge of weather is required. You need to have an idea of the convection of air on the global scale: trade winds, prevailing westerlies, polar easterlies. Of course, the layers of the atmosphere are definitely good to know. You'll want to have a basic knowledge of El Niño too, which is a very important oceanography phenomenon. Before there is the Walker circulation cell and rain and warm water is at the Southeast Asia side of the Pacific. There is upwelling near South America with cold water. El Nino is when the trade winds weaken and warm water from Southeast Asia go to West Pacific and there is no more upwelling and there is more rain. The Walker circulation cell has been broken and the trade winds reverse.

For more info, see the Oceanography notes page.

Currents It may be important to know the currents of our world. An easy thing to do is to memorize the map and use words that will remind you what the actual name is.

Resources

A good starting resource
Dynamic Planet
Earthquakes and Volcanoes · Earth's Fresh Water · Glaciers · Oceanography · Tectonics