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There are a variety of weather events around the world. Some of these weather events are events that can occur in the event of a natural disaster. The hose is one of these natural disasters.

When the hose is formed, a lot of harm comes into contact with the surrounding area. First of all it is a kind of wind and the winds are formed from high pressure to low pressure. The hose falls in the depths of the sky and spirals down toward the earth.

There are many different varieties of clouds in the air known as water vapor or other known. Cumulus is also associated with this type of cloud hose wind, along with being among these varieties. When the hose is formed it turns into a parachute and hard enough to damage many structures. Generally, the hoses are formed on land, but in some cases they can also form on the lake or on the sea. In these cases, water hoses come into play and may cause danger to nearby areas.



Hoses are rated according to their severity and size. These ratings are made between F1 and F5. Severe hoses can destroy a great city in a very short time and leave no trace of the city. The most severe hoses are rated F5 and the hose at this point is a complete natural disaster. In America's State of Oklahoma, such a hose has come to fruition. The diameter of this hose, which is F5, is 1.5 kilometers in this precinct. This figure is a huge figure for a hose.

Clouds called "cumulus" are causing the hoses to come to fruition. These clouds are suspended in a fluffy manner and are likened to carnabahara as a form among the people. The cumulus cloud in the upper part is domed and interacts with the clouds in the lower part. As a result of this interaction, a spiral of wind descends from the sky to the earth. The name of this wind is the hose. When hoses are found with land, the effects are much more severe. So much so that the wind speed can reach several hundred kilometers. The hoses crush everything in their way and begin to draw into the sky.

Scientists are doing a lot of modeling on this subject by examining the satellite photographs of the hose. The first theory of how scientifically the horn came to fruition in the historical process was introduced by a German meteorologist. This first theory, which was proposed by the meteorologist who is the name of Wegener, has been so successful that it is now understood that it confirms the definite information at that time. Much research is also being done on the speed of the hose. Some estimates are made about the rate of hose development, but the hose can develop at a speed that is not in the calculations at all.

This situation makes it very difficult to prevent the hose disaster. So hoses can cause very sudden catastrophes in unexpected moments. At the same time, the severity of the hoses is connected to the cumulus clouds, which have an effective share in the horticulture. Due to the intensity of the cumulus clouds, the impending hose disasters are not fully caught.

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