1 / 38

Contouring

Contouring. AOS 101 Section 301 2 February 2009. Contouring. Rather than representing meteorological data as a set of separate points:. Contouring. It can be described as contours : lines of constant value. Contouring. It can be described as contours : lines of constant value (shaded).

deweesel
Download Presentation

Contouring

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Contouring AOS 101 Section 301 2 February 2009

  2. Contouring • Rather than representing meteorological data as a set of separate points:

  3. Contouring • It can be described as contours: lines of constant value

  4. Contouring • It can be described as contours: lines of constant value (shaded)

  5. Contouring • When contouring, we are assuming that the atmosphere is continuous – there are no sudden, abrupt changes over short distances

  6. Contouring • In a continuous fluid like the atmosphere, when we see two different observations separated by some distance - 25 30

  7. Contouring • - we assume that values in the intermediate space between those observations will progress from one observation to the other: 26 25 27 28 29 30

  8. Rules of Contour Analysis 1) Contours do not abruptly begin or end in the middle of the plot: 25

  9. Rules of Contour Analysis 1) Contours do not abruptly begin or end in the middle of the plot: 25

  10. Rules of Contour Analysis 1) You can backtrack, loop around, and make closed loops in the plot 25 25

  11. Rules of Contour Analysis 2) Lines cannot cross each other: 30 25

  12. Rules of Contour Analysis 2) Lines cannot cross each other: 30 25 =/= 30 25

  13. Rules of Contour Analysis 2) You can have multiple contours of the same value on the same plot: 30 25 30

  14. Rules of Contour Analysis 2) You can have multiple contours of the same value on the same plot: 30 25 30

  15. Rules of Contour Analysis 3) Contours do not branch or fork from one another; they are a single, continuous line or loop: 25

  16. Rules of Contour Analysis 3) Contours do not branch or fork from one another; they are a single, continuous line or loop: 25

  17. Rules of Contour Analysis 3) Contours do not branch or fork from one another; they are a single, continuous line or loop: 25

  18. Rules of Contour Analysis 3) Again, use of multiple contours and closed loops can help you avoid these problems: 25 25

  19. Rules of Contour Analysis 3) Again, use of multiple contours and closed loops can help you avoid these problems: 25 25

  20. Rules of Contour Analysis 4) Always label your contours 5) Contour at evenly-spaced intervals 6) Do not allow contours to stray into regions where there is absolutely no data (e.g. oceans)

  21. Helpful Hint • Think about the contour as a line separating the observations with higher values on one side of the line, and lower values on the other side:

  22. Helpful Hint • Think about the contour as a line separating the observations with higher values on one side of the line, and lower values on the other side: 19 17 19 22 Draw the 25-line: 24 20 30 21 21 27 25 23 24 29 29 30 30 24

  23. Helpful Hint • Think about the contour as a line separating the observations with higher values on one side of the line, and lower values on the other side: 19 17 19 22 Draw the 25-line: 24 20 30 21 21 27 25 23 24 29 29 30 30 24

  24. Helpful Hint • Think about the contour as a line separating the observations with higher values on one side of the line, and lower values on the other side: 19 17 19 22 Draw the 25-line: 24 20 30 21 21 27 25 23 24 29 29 30 30 24 25

  25. Helpful Hint • Think about the contour as a line separating the observations with higher values on one side of the line, and lower values on the other side: 19 17 19 22 Draw the 30-line: 24 20 30 21 21 27 25 23 24 29 29 30 30 24 25

  26. Helpful Hint • Think about the contour as a line separating the observations with higher values on one side of the line, and lower values on the other side: 19 17 19 22 Draw the 30-line: 24 20 30 21 21 27 25 23 24 29 29 30 30 24 25

  27. Helpful Hint • Think about the contour as a line separating the observations with higher values on one side of the line, and lower values on the other side: 19 17 19 22 Draw the 30-line: 24 20 30 21 21 27 25 23 24 29 29 30 30 24 25 30

  28. Helpful Hint • Think about the contour as a line separating the observations with higher values on one side of the line, and lower values on the other side: 19 17 19 22 Draw the 20-line: 24 20 30 21 21 27 25 23 24 29 29 30 30 24 25 30

  29. Helpful Hint • Think about the contour as a line separating the observations with higher values on one side of the line, and lower values on the other side: 19 17 19 22 Draw the 20-line: 24 20 30 21 21 27 25 23 24 29 29 30 30 24 25 30

  30. Helpful Hint • Think about the contour as a line separating the observations with higher values on one side of the line, and lower values on the other side: 19 17 19 22 Draw the 20-line: 24 20 30 21 21 20 27 25 23 24 29 29 30 30 24 25 30

  31. Commonly Seen Contour Plots • Here are some commonly seen contoured variables, and their names:

  32. Sea-Level Pressure (Isobars)

  33. Temperature (Isotherms)

  34. Wind Speed (Isotachs)

  35. Want Some Practice? • Professor Steve Ackerman has developed a website which allows you to practice contour analysis through a Java-applet: http://profhorn.meteor.wisc.edu/wxwise/contour/contour1.html

  36. Your Homework • Using a plot of surface temperatures for the morning of January 24, 2009 (provided), create a contour analysis of surface temperature every 6 degrees divisible by 6 degrees (e.g. -12, -6, 0, 6, 12, etc.) • Suggestion: Start with the zero-line, then do positive values in order (6, 12, 18, etc.), then do negative values in order (-6, -12, -18, etc.)

  37. -12? -4?

More Related