In this project, we inspect fronts crossing the country associated with day-to-day variations in the weather using real-time atmospheric observations. In the laboratory we create fronts by allowing salty (and hence dense) columns of water to collapse under rotation and gravity. We discover that the observed changes in winds and temperature across our laboratory and atmospheric fronts is consistent with Margule's formula (a discrete form of the thermal wind equation) and see that the dynamical balance at work in the atmosphere is the same as in the density fronts created in the rotating tank.
Project Description (PDF)
Notes on relevant theory: thermal wind (PDF)
You can read about the experiment in the Weather in a Tank project: Fronts: An Introduction
Mean fields: Use climatological data to verify thermal wind balance across the polar front.
Mid-latitude cyclones and the polar front
1a) Plot the 500 mb temperature over the Northern Hemisphere, using GDCNTR (area: nhem)
1b) Use Any-section to do a cross section from pole to equator.
2) Using the same date, plot the Southern Hemisphere 500 mb temperature: using GDCNTR (area: shem)
3) Compare your plots to the appropriate satellite image
Warm and cold fronts
3) Find the corresponding Surface Analysis
4) Plot the 850 mb temperature using GDCNTR
5a) Produce sections through a warm and cold front, using Any-section
5b) Using gdcross might be helpful in determining the slope of the front, - gfunc=hght; cint=200 (height is in meters)