WEBVTT FILE 1 00:00:01.020 --> 00:00:04.870 Two days before Hurricane Maria devastated Puerto Rico 2 00:00:04.890 --> 00:00:09.070 a NASA satellite captured a 3-D view of the storm 3 00:00:09.090 --> 00:00:14.750 revealing the processes inside the hurricane that would fuel the storm’s intensification. 4 00:00:14.770 --> 00:00:18.980 NASA’s precipitation satellite has an advanced radar 5 00:00:19.000 --> 00:00:23.410 that measures both liquid and frozen water inside hurricanes. 6 00:00:23.430 --> 00:00:29.590 This satellite is called the Global Precipitation Measurement Core Observatory, or GPM. 7 00:00:29.610 --> 00:00:37.180 Now, for the first time, we can take you inside a hurricane in a 360-degree view of this data. 8 00:00:37.200 --> 00:00:41.560 You can look around by moving your device or clicking and dragging on the screen. 9 00:00:41.580 --> 00:00:48.790 We’re currently inside Hurricane Maria when it was a Category 1 hurricane in September 2017. 10 00:00:48.810 --> 00:00:53.660 This was a few days before it rapidly intensified to a Category 5 hurricane. 11 00:00:53.680 --> 00:00:59.660 Look down and you'll see a map showing where we are inside Hurricane Maria 12 00:00:59.680 --> 00:01:01.540 and what the colors are showing. 13 00:01:01.560 --> 00:01:04.160 The dots around you show areas of rainfall, 14 00:01:04.180 --> 00:01:09.120 where green and yellow show low rates and red and purple show high rates. 15 00:01:09.140 --> 00:01:15.900 The colored areas below the dots show how much rain makes it to the surface. 16 00:01:15.920 --> 00:01:22.910 Look up and you’ll see blue and purple dots that show light and intense frozen precipitation. 17 00:01:22.930 --> 00:01:27.000 Right now we are traveling through a gap between rainbands. 18 00:01:27.020 --> 00:01:31.260 Now we’ll collapse the clouds of dots into the actual data values, 19 00:01:31.280 --> 00:01:37.630 which are in millimeters of precipitation per hour. 20 00:01:37.650 --> 00:01:42.440 The rates in this storm vary from less than 0.5 millimeters per hour 21 00:01:42.460 --> 00:01:47.740 to over 150 millimeters per hour. 22 00:01:47.760 --> 00:01:57.580 It’s these actual values that scientists use to figure out what’s going on inside hurricanes. 23 00:01:57.600 --> 00:02:01.130 Next we’ll turn the numbers into a representation 24 00:02:01.150 --> 00:02:07.170 that helps us to see other 3-D structures in the distance. 25 00:02:07.190 --> 00:02:12.090 Wider, red and purple ellipsoids show higher rainfall rates 26 00:02:12.110 --> 00:02:16.200 and spherical green and yellow ellipsoids show lower rainfall rates. 27 00:02:16.220 --> 00:02:24.780 Rising to 5 kilometers, you’ll see a distinctive change to frozen precipitation, shown in blues and purples. 28 00:02:24.800 --> 00:02:29.660 This transition is the melting layer where falling snow and ice 29 00:02:29.680 --> 00:02:32.740 warm to the point that they melt into water drops. 30 00:02:32.760 --> 00:02:37.510 We are currently moving up a tall column of intense precipitation. 31 00:02:37.530 --> 00:02:39.980 Scientists call these hot towers. 32 00:02:40.000 --> 00:02:44.650 Lots of heat and energy are released in hot towers 33 00:02:44.670 --> 00:02:48.800 as rising water vapor condenses into precipitation. 34 00:02:48.820 --> 00:02:52.670 Most hot towers are between 10 and 15 kilometers high 35 00:02:52.690 --> 00:02:55.980 - roughly the altitude that commercial jets fly. 36 00:02:56.000 --> 00:03:00.640 Multiple hot towers are common in intensifying hurricanes. 37 00:03:00.660 --> 00:03:07.450 Here’s another hot tower that’s about 17 kilometers tall. 38 00:03:07.470 --> 00:03:09.660 Hot towers often appear near the eyewall, 39 00:03:09.680 --> 00:03:14.260 a ring of heavy wind and rainfall surrounding the center of the storm. 40 00:03:14.280 --> 00:03:19.060 We’re now in the eye of Hurricane Maria. 41 00:03:19.080 --> 00:03:23.980 At this stage of development, Maria’s eyewall is asymmetrical 42 00:03:24.000 --> 00:03:28.160 with heavier rain in the northern part colored in purple. 43 00:03:28.180 --> 00:03:31.580 This is common in storms impacted by environmental winds. 44 00:03:31.600 --> 00:03:42.520 A few days after this time, Maria’s eyewall intensified and became more symmetrical. 45 00:03:42.540 --> 00:03:48.010 While NASA's GPM satellite can detect big features like the shape of the eyewall, 46 00:03:48.030 --> 00:03:51.770 it can also measure tiny precipitation particles. 47 00:03:51.790 --> 00:03:58.390 These blue drops show the size and density of ice and water particles inside Hurricane Maria, 48 00:03:58.410 --> 00:04:02.490 which is also known as the drop size distribution. 49 00:04:02.510 --> 00:04:08.480 Big drops are colored in dark blue and small drops in light blue and white. 50 00:04:08.500 --> 00:04:14.150 Looking at drop sizes and rainfall rates provides a key part of the equation 51 00:04:14.170 --> 00:04:17.530 in understanding hurricane intensity. 52 00:04:17.550 --> 00:04:22.870 Factors such as temperature, humidity, wind speed, and clouds 53 00:04:22.890 --> 00:04:26.540 influence the size of the precipitation particles, 54 00:04:26.560 --> 00:04:31.000 which in turn affects how much rain falls and how a storm grows. 55 00:04:31.020 --> 00:04:36.700 These advanced satellite measurements are critical for improving forecasts 56 00:04:36.720 --> 00:04:41.370 of how these powerful storms may intensify and where they may go. 57 00:04:41.390 --> 00:04:45.960 Scientists are seeing things never measured before, 58 00:04:45.980 --> 00:04:50.290 revealing new insights into hurricanes -- drop by drop. 59 00:04:50.310 --> 00:05:02.247