Identify Pennsylvania on the map. Notice that there are five stations around Pennsylvania including one in the western part of it. Others are in western New York, northern Virginia, eastern Maryland, and northeastern New Jersey/New York City. All five stations are cloudy (except Maryland has missing data), windy and rainy. Can you explain why winds are from different directions but going around the same location?

The hint to this answer is in the following statement:

Focusing on the station model for New York City (can you find NYC?), we see that the temperature is 64° F and the dew point temperature is 60° F. The sea-level pressure at New York City is 965.1 mb (more on this shortly). The winds are strong and from the east, and New York is experiencing overcast cloud conditions with light rain as Superstorm Sandy passes just to its south. Interestingly, not far away in Washington, DC, the wind direction is from the northwest. Winds around low pressure in the Northern Hemisphere blow in a counterclockwise direction and cause clouds and rain, as in this case. This helps us understand why we should decode the sea-level pressure as 965.1 mb, consistent with cloudy, stormy low pressure, instead of 1065.1 mb, which would be very high pressure. Use the activity below to decoding real observations.

Transcribed Image Text:

Surface All data Analysis for 22Z 29 OCT 12 377 TOU 28.112 34245 40 30 30 236 321305 28 56 157 54 28 30 321 167 63 122 32 173 25 $0 32 40 133 39 238 43 268 28 ,65 186 34 571628 58 64, 127 38 68 178 38 60 121 27 230 54 172 48 56 60 196. 35 15 4/2 56 179 26 45 258 46 250 004 65 121 29 44 118 70 195 24 34 5174 7 180 48 220 30 98,3 50 28 38 570 06.1 72 150 39 54 31 27 5.212 29 64 194 62 151 121 34 541228 go02.2 84 159 25 890 79 161 9068 143-966 33 70 166 24 166 23 53156 21 158 224 28 $8195 29 55 166 69 165 65202 32 68 970 00.4 88 140 14 53094 61. 000 26 68 205 79 146 611052 73 160 39 22 168 045 0.0 24 60. 158 68 211 68 199 65 093 88 66/ 38 42 72 084 4a 128 0.6 69 172 -1.0 50 76 196