1 00:00:07,143 --> 00:00:10,717 In 479 BC, when Persian soldiers beseiged 2 00:00:10,717 --> 00:00:12,832 the Greek city of Potidaea, 3 00:00:12,832 --> 00:00:15,139 the tide retreated much farther than usual, 4 00:00:15,139 --> 00:00:17,956 leaving a convenient invasion route. 5 00:00:17,956 --> 00:00:19,814 But this wasn't a stroke of luck. 6 00:00:19,814 --> 00:00:21,335 Before they had crossed halfway, 7 00:00:21,335 --> 00:00:23,049 the water returned in a wave higher 8 00:00:23,049 --> 00:00:25,141 than anyone had ever seen, 9 00:00:25,141 --> 00:00:27,057 drowning the attackers. 10 00:00:27,057 --> 00:00:29,152 The Potiidaeans believed they had been saved 11 00:00:29,152 --> 00:00:31,211 by the wrath of Poseidon. 12 00:00:31,211 --> 00:00:32,851 But what really saved them was likely 13 00:00:32,851 --> 00:00:35,819 the same phenomenon that has destroyed countless others: 14 00:00:35,819 --> 00:00:37,105 a tsunami. 15 00:00:37,105 --> 00:00:39,811 Although tsunamis are commenly known as tidal waves, 16 00:00:39,811 --> 00:00:42,476 they're actually unrelated to the tidal activity caused 17 00:00:42,476 --> 00:00:45,621 by the gravitational forces of the sun and moon. 18 00:00:45,621 --> 00:00:48,095 In many ways, tsunamis are just larger versions 19 00:00:48,095 --> 00:00:49,548 of regular waves. 20 00:00:49,548 --> 00:00:51,329 They have a trough and a crest, 21 00:00:51,329 --> 00:00:53,299 and consist not of moving water, 22 00:00:53,299 --> 00:00:56,380 but the movement of energy through water. 23 00:00:56,380 --> 00:00:58,884 The difference is in where this energy comes from. 24 00:00:58,884 --> 00:01:00,188 For normal ocean waves, 25 00:01:00,188 --> 00:01:01,792 it comes from wind. 26 00:01:01,792 --> 00:01:03,572 Because this only affects the surface, 27 00:01:03,572 --> 00:01:06,018 the waves are limited in size and speed. 28 00:01:06,018 --> 00:01:07,622 But tsunamis are caused by energy 29 00:01:07,622 --> 00:01:09,601 originating underwater, 30 00:01:09,601 --> 00:01:10,833 from a volcanic erruption, 31 00:01:10,833 --> 00:01:12,501 a submarine landslide, 32 00:01:12,501 --> 00:01:13,896 or most commonly, 33 00:01:13,896 --> 00:01:15,609 an earthquake on the ocean floor 34 00:01:15,609 --> 00:01:18,792 caused when the tectonic plates of the Earth's surface slip, 35 00:01:18,792 --> 00:01:21,987 releasing a massive amount of energy into the water. 36 00:01:21,987 --> 00:01:24,152 This energy travels up to the surface, 37 00:01:24,152 --> 00:01:26,117 displacing water and raising it above 38 00:01:26,117 --> 00:01:27,954 the normal sea level, 39 00:01:27,954 --> 00:01:29,777 but gravity pulls it back down, 40 00:01:29,777 --> 00:01:33,134 which makes the energy ripple outwards horizontally. 41 00:01:33,134 --> 00:01:34,785 Thus, the tsunami is born, 42 00:01:34,785 --> 00:01:37,577 moving at over 500 miles per hour. 43 00:01:37,577 --> 00:01:38,953 When it's far from shore, 44 00:01:38,953 --> 00:01:40,991 a tsunami can be barley detectable 45 00:01:40,991 --> 00:01:43,673 since it moves through the entire depth of the water. 46 00:01:43,673 --> 00:01:45,083 But when it reaches shallow water, 47 00:01:45,083 --> 00:01:47,534 something called wave shoaling occurs. 48 00:01:47,534 --> 00:01:49,788 Because there is less water to move through, 49 00:01:49,788 --> 00:01:53,271 this still massive amount of energy is compressed. 50 00:01:53,271 --> 00:01:55,115 The wave's speed slows down, 51 00:01:55,115 --> 00:01:58,550 while its height rises to as much as 100 feet. 52 00:01:58,550 --> 00:01:59,563 The word tsunami, 53 00:01:59,563 --> 00:02:01,631 Japanese for "harbor wave," 54 00:02:01,631 --> 00:02:03,759 comes from the fact that it only seems to appear 55 00:02:03,759 --> 00:02:05,252 near the coast. 56 00:02:05,252 --> 00:02:07,882 If the trough of a tsunami reaches shore first, 57 00:02:07,882 --> 00:02:09,919 the water will withdraw farther than normal 58 00:02:09,919 --> 00:02:13,070 before the wave hits, which can be misleadingly dangerous. 59 00:02:13,070 --> 00:02:16,319 A tsunami will not only drown people near the coast, 60 00:02:16,319 --> 00:02:20,134 but level buildings and trees for a mile inland or more, 61 00:02:20,134 --> 00:02:22,164 especially in low-lying areas. 62 00:02:22,164 --> 00:02:23,449 As if that weren't enough, 63 00:02:23,449 --> 00:02:24,963 the water then retreats, 64 00:02:24,963 --> 00:02:27,212 dragging with it the newly created debris, 65 00:02:27,212 --> 00:02:29,737 and anything, or anyone, unfortunate enough 66 00:02:29,737 --> 00:02:31,478 to be caught in its path. 67 00:02:31,478 --> 00:02:33,913 The 2004 Indian Ocean tsunami 68 00:02:33,913 --> 00:02:37,000 was one of the deadliest natural disasters in history, 69 00:02:37,000 --> 00:02:40,177 killing over 200,000 people throughout South Asia. 70 00:02:40,177 --> 00:02:42,082 So how can we protect ourselves 71 00:02:42,082 --> 00:02:44,646 against this destructive force of nature? 72 00:02:44,646 --> 00:02:46,379 People in some areas have attempted 73 00:02:46,379 --> 00:02:50,212 to stop tsunamis with sea walls, flood gates, 74 00:02:50,212 --> 00:02:51,722 and channels to divert the water. 75 00:02:51,722 --> 00:02:53,279 But these are not always effective. 76 00:02:53,279 --> 00:02:56,157 In 2011, a tsunami surpassed the flood wall 77 00:02:56,157 --> 00:02:58,878 protecting Japan's Fukushima Power Plant, 78 00:02:58,878 --> 00:03:01,471 causing a nuclear disaster in addition to claiming 79 00:03:01,471 --> 00:03:04,142 over 18,000 lives. 80 00:03:04,142 --> 00:03:06,470 Many scientists and policy makers are instead 81 00:03:06,470 --> 00:03:08,569 focusing on early detection, 82 00:03:08,569 --> 00:03:11,754 monitoring underwater pressure and seismic activity, 83 00:03:11,754 --> 00:03:14,117 and establishing global communication networks 84 00:03:14,117 --> 00:03:15,737 for quickly distributing alerts. 85 00:03:15,737 --> 00:03:18,469 When nature is too powerful to stop, 86 00:03:18,469 --> 00:03:21,879 the safest course is to get out of its way.