WEBVTT FILE 1 00:00:00.000 --> 00:00:02.190 Hurricane Harvey, Irma, and Maria 2 00:00:02.210 --> 00:00:04.300 wreaked havoc when they made landfall. 3 00:00:04.320 --> 00:00:07.120 They were all categorized as major hurricanes, 4 00:00:07.140 --> 00:00:12.300 but part of what made them so dangerous was how they rapidly intensified before moving inland. 5 00:00:12.320 --> 00:00:16.210 When hurricanes intensify a large amount in a short period, 6 00:00:16.230 --> 00:00:19.290 scientists call this process rapid intensification. 7 00:00:19.310 --> 00:00:24.500 This is the hardest aspect of a storm to forecast and it can be most critical to people’s lives. 8 00:00:24.520 --> 00:00:27.890 While any hurricane can threaten lives and cause damage 9 00:00:27.910 --> 00:00:30.740 with storm surges, floods, and extreme winds, 10 00:00:30.760 --> 00:00:34.810 a rapidly intensifying hurricane can greatly increase these risks 11 00:00:34.830 --> 00:00:38.570 while giving populations limited time to prepare and evacuate. 12 00:00:38.590 --> 00:00:43.030 Rapid intensification occurs when a hurricane’s maximum sustained winds 13 00:00:43.050 --> 00:00:49.280 increase at least 35 miles per hour in 24 hours and often results in major hurricanes. 14 00:00:49.300 --> 00:00:53.530 The latest Atlantic storm to rapidly intensify was Hurricane Maria, 15 00:00:53.550 --> 00:00:58.860 which developed from a Category 1 to a Category 5 hurricane in less than 18 hours. 16 00:00:58.880 --> 00:01:03.560 In the past few decades, forecasting errors for tracking hurricanes have decreased. 17 00:01:03.580 --> 00:01:07.440 While intensity forecast errors have shown recent improvement, 18 00:01:07.460 --> 00:01:11.850 significant errors can still occur because of rapidly intensifying storms. 19 00:01:11.870 --> 00:01:18.090 There are, however, clues to a rapidly intensifying hurricane that can be seen from NASA satellites. 20 00:01:18.110 --> 00:01:22.580 Scientists say ocean water needs to be warm - 80 Degrees Fahrenheit or higher. 21 00:01:22.600 --> 00:01:25.130 There also needs to be low vertical wind shear, 22 00:01:25.150 --> 00:01:27.780 meaning winds that don’t change much with altitude, 23 00:01:27.800 --> 00:01:31.840 so that the central part of the storm doesn’t get tilted over or ripped apart. 24 00:01:31.860 --> 00:01:35.530 A key indicator of a potentially rapidly intensifying storm 25 00:01:35.550 --> 00:01:39.410 storm is a symmetrical, deep ring of precipitation surrounding the eye. 26 00:01:39.430 --> 00:01:44.300 Rapidly intensifying storms typically occur up to twice in a hurricane season. 27 00:01:44.320 --> 00:01:48.350 But in 2017, we have seen four storms rapidly intensify 28 00:01:48.370 --> 00:01:52.910 and scientists attribute this to warmer ocean waters and favorable winds. 29 00:01:52.930 --> 00:01:56.660 But these key ingredients don’t always lead to rapid intensification 30 00:01:56.680 --> 00:01:59.090 -- proving that it’s a much more complex problem. 31 00:01:59.110 --> 00:02:05.460 Researchers say there are many small-scale processes, such as those associated with deep thunderstorms, 32 00:02:05.480 --> 00:02:08.570 that influence how strong a hurricane becomes. 33 00:02:08.590 --> 00:02:11.780 Satellites such as NASA’s Global Precipitation Measurement Mission 34 00:02:11.800 --> 00:02:15.140 can observe precipitation inside evolving storms 35 00:02:15.160 --> 00:02:21.280 and help scientists better understand how these processes come together to intensify hurricanes. 36 00:02:21.300 --> 00:02:33.879