WEBVTT FILE 1 00:00:00.040 --> 00:00:04.090 tone 2 00:00:04.090 --> 00:00:08.090 music 3 00:00:08.090 --> 00:00:12.110 In this visualization, Earth's magnetic field structure is represented by lines. It 4 00:00:12.110 --> 00:00:16.130 corresponds to the paths that charged particles would travel close to the Earth. 5 00:00:16.130 --> 00:00:20.130 The sun's magnetic field, carried in the plasma of the solar wind, 6 00:00:20.130 --> 00:00:24.140 flows continuously by the Earth, distorting the planet's field, 7 00:00:24.140 --> 00:00:28.160 and pulling it back into a windsock-type structure. 8 00:00:28.160 --> 00:00:32.160 The red illustrates the higher density plasma that forms the magnetopause, 9 00:00:32.160 --> 00:00:36.180 the boundary between the magnetic influence of the sun and the Earth. 10 00:00:36.180 --> 00:00:40.230 The wind also forms a lower density magnetotail behind the Earth, 11 00:00:40.230 --> 00:00:44.230 represented by blue in this computer model. This process 12 00:00:44.230 --> 00:00:48.240 is happening all the time, as the solar wind is constantly flowing by 13 00:00:48.240 --> 00:00:52.280 the Earth. But a coronal mass ejection or CME can change 14 00:00:52.280 --> 00:00:56.290 things. The higher density plasma and stronger 15 00:00:56.290 --> 00:01:00.310 magnetic field, carried within the CME, strikes Earth's field 16 00:01:00.310 --> 00:01:04.400 and significantly alters the structure. 17 00:01:04.400 --> 00:01:08.410 The dramatic changes in Earth's magnetic field and the shape of the magnetopause 18 00:01:08.410 --> 00:01:12.470 as the CME passes Earth. 19 00:01:12.470 --> 00:01:16.640 Close to Earth, the magnetic field is largely unchanged. Earth is protected from the intense 20 00:01:16.640 --> 00:01:20.820 solar event. This for a rather ordinary 21 00:01:20.820 --> 00:01:24.840 CME. In this example, a CME launched by an X3 flare 22 00:01:24.840 --> 00:01:28.850 from December 2006. But what would happen in the case of a more 23 00:01:28.850 --> 00:01:32.880 intense event, such as the Carrington event of 1859. 24 00:01:32.880 --> 00:01:36.900 With the aid of similar computer models as before, we can explore some of the 25 00:01:36.900 --> 00:01:40.900 possibilities. Here, a much stronger CME 26 00:01:40.900 --> 00:01:44.910 compresses the magnetic field between the sun and Earth and generates more density 27 00:01:44.910 --> 00:01:48.920 in the bow shock, represented by darker red. 28 00:01:48.920 --> 00:01:53.100 The front of the magnetopause was pushed much closer to the Earth than usual. 29 00:01:53.100 --> 00:01:57.100 Even the field and plasma trailing behind the Earth are 30 00:01:57.100 --> 00:02:01.100 more strongly distorted. 31 00:02:01.100 --> 00:02:05.120 beeping 32 00:02:05.120 --> 00:02:13.634 beeping