The Bermuda Triangle area is considered one of the most disadvantaged in the entire Atlantic Ocean. Since ancient times, ships have disappeared here, and then planes. Skeptics quite reasonably state that the Devil's Triangle is dangerous for completely earthly reasons: navigation in the area is very difficult, there are many shoals, and storms and cyclones arise instantly and destroy pilots and sailors. However, logic is logic, but how to explain that it is here that more ships and planes disappear than in any other part of the oceans?
A group of American meteorologists conducted a study that could close the mysterious history of the Bermuda Triangle in one fell swoop. Scientists claim that the problem has been solved - let's try to figure it out a little more.
Theory
Colorado State University meteorologist Steve Miller has spent nearly a decade studying weather conditions in the Bermuda Triangle. Together with experts from the local coast guard, Miller developed a rather daring theory. The scientist suggested that a certain air anomaly posed the danger to the area and assembled his own group to test his logical calculations by field research.
Help from above
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The idea to look for an air anomaly for Steve Miller was prompted by a thorough analysis of satellite images of the area. Modern optics made it possible to make the maximum magnification - the meteorologist saw strange clouds of a strict hexagonal shape above the anomalous zone.
Aerial explosions
The Atlantic Ocean itself helps the clouds take such a strange shape. Warm water from the shallows evaporates into cold air, creating a kind of frame for it. Hexagonal clouds, according to Miller, drift over the Bermuda Triangle for some time. The clouds then explode, forming powerful currents of air.
Top attack
It is these flows that are the very abnormal cause of the death of dozens of planes and ships. From the explosion, a powerful gust of wind descends down to the ocean. The interaction of atmospheric waves leads to the formation of the strongest turbulence, from which human technology has no way to get out.
Mini tsunami
In addition, if a gust of wind is strong enough, it can hit the ocean surface and cause a huge wave up to 40 meters high. Miller's team met one such giant in the open ocean - luckily, the wave passed by. This dangerous adventure was another fact that seriously confirms the theory of researchers about air bombs.