ANSWER KEY 1. Record the track of Hurricane Isabel by plotting the latitude/longitude pairs listed in Table 2 for 0300 UTC on 14 September 2003 to 1500 UTC on 17 September. Plot the locations on the visible satellite image (Figure 3). Note that the latitude and longitude gridlines on Figure 3 are 1 by 1, so you will need to interpolate the positions to produce an accurate track. Figure 3 Visible Satellite Image of Hurricane Isabel from Explorations in Meteorology 61
2. The National Hurricane Center expresses various hurricane parameters in terms of a radius from the hurricane center. For example, the NHC might state that 50 knot winds extend 60 miles northwest of the center. To plot the parameters on a standard map using a latitude/longitude grid, it is necessary to convert distances in miles (mi) to degrees latitude and degrees longitude. In the tropics, one degree of latitude or longitude equals ~70 statute miles. At higher latitudes, the spatial extent of one degree of longitude decreases. The spatial extent of one degree latitude is consistent everywhere. For the purposes of this lab, however, use 1 deg lat/lon = 70 miles. 50 mi = 0.714 deg lat/lon 180 mi = 2.57 deg lat/lon 100 mi = 1.43 deg lat/lon 225 mi = 3.21 deg lat/lon 140 mi = 2 deg lat/lon 575 mi = 8.21 deg lat/lon 150 mi = 2.14 deg lat/lon 3. On Figure 4, plot the center of Hurricane Isabel using the latitude and longitude of the current hurricane position listed in Table 2. Use your answers above and Table 3 to plot the radii of the 64-knot (with a red pencil), 50-knot (with a green pencil), and 34-knot (with a purple pencil) winds on Figure 4. Figure 4 Visible Satellite Image of Hurricane Isabel from Explorations in Meteorology 62
4. Examine the radii you drew on Figure 4. Are these winds symmetric or asymmetric about the center of Isabel? Symmetric 5. Do the radii of 34-knot winds (Figure 4) extend beyond the cloud cover noted in the image? Just barely on the western half 6. Use Table 3 to plot the radii of the 12-foot seas (with a blue pencil) on Figure 4 from the current hurricane position listed in Table 3. Figure 5 Visible Satellite Image of Hurricane Isabel from Explorations in Meteorology 63
7. Explain why the radii of the 12-foot seas are not symmetric about the eye of the hurricane. Large waves on the sea result from both strong to moderate wind speeds just above the water surface and the length of time the water surface experiences these moderate to strong winds. Because the radii of the 12-foot seas do not align with the 34 kt (or higher) winds in Figure 4, then there must be a pressure gradient field to the northwest of the hurricane that allows for moderate winds to occur for a significant length of time across this area. Most likely, there is a high pressure system over the U.S. coastline that interacts with the low pressure of the hurricane to generate a strong pressure gradient to the northwest of the center of the hurricane. 8. Using Figure 4, do the radii of the 12-foot seas extend beyond the cloud cover noted in the image? Yes 9. On Figure 5, plot the center of Hurricane Isabel using the latitude and longitude of the 48-hour forecast of hurricane position listed in Table 2. Use Table 4 and Figure 5 to plot the radii of the 48-hour forecast position of the 64-knot (with a red pencil), 50-knot (with a green pencil), and 34-knot (with a purple pencil) winds. Figure 6 Visible Satellite Image of Hurricane Isabel from Explorations in Meteorology 64
10. Examine the radii you drew on Figure 5. Are these winds symmetric or asymmetric about the center of Isabel? Asymmetric 11. What factors might explain the change in symmetry between the wind radii you plotted in Figures 4 and 5? The hurricane is moving into the mid-latitudes and its speed, direction, and symmetry will be affected by the high- and low-pressure patterns across this region. The symmetry also may be affected by gradients in water temperature (e.g., Gulf Stream). 12. The Geophysical Fluid Dynamics Laboratory in Princeton, NJ, developed a hurricane forecast model that provides a forecast of position and intensity of a hurricane or tropical storm up to 84 hours (3.5 days) in advance. Figure 6 displays this model s 84-hour forecast valid for 8:00 PM EDT on 18 September 2003 (0000 UTC on 19 September 2003). The model placed the center of Tropical Storm Isabel (downgraded from hurricane status) over southern Virginia. Use Figure 6 to answer the following scenario: It is Monday, September 15, 2003. You are the emergency manager for the City of Blacksburg, VA (located at the black dot on Figure 6). The Virginia Tech Texas A&M football game in Blacksburg will be televised nationally on Thursday night, September 18. A sell-out crowd of 65,115 is expected in the stadium. Kickoff is set for 7:00 PM EDT. You are handed Figure 6. What meteorological and societal factors must you consider when deciding to possibly cancel, reschedule, or move the game? What decision would you make regarding the football game? Answers will vary regarding the decision to cancel, reschedule, or move the game. Factors that may be considered include the following: (1) past experiences (good or bad) with this model, (2) consistency of these model results with those from other models, (3) amount of rain forecast, (4) knowledge of what amount of rain leads to localized flooding (especially flash flooding through mountainous terrain), (5) availability of shelter in the stadium for downpours/lightning/ wind, (6) experience with information dissemination mechanisms (e.g., media) to get the word out about any changes in game time (i.e., you might be able to delay the decision another 24 hours), and (7) normal airport flight times/patterns to bring in visitors to the game (i.e., will the weather keep visitors from arriving in the first place?). Explorations in Meteorology 65