The damage severity in a tornado is determined primarily by wind speed. For example, a tornado with peak winds of 100 mph, even if it is very large, is not going to obliterate well built houses, thought it will cause severe roof damage. By contrast, even a relatively small tornado with peak winds of 250 mph can completely destroy just about any structure.
Tornado size is typically determined by the Enhanced Fujita (EF) scale, which considers the tornado's estimated wind speeds and the damage caused. The EF scale ranges from EF0 (weakest) to EF5 (strongest), with tornado size typically increasing with higher EF ratings. Additionally, meteorologists may also assess the tornado's width and the path length to get a comprehensive understanding of its size.
The damage is surveyed and where damage boundaries are is noted. This is the used to show how wide the tornado is. Note that the size is not a factor in how the tornado is rated but how intense the damage is.
The Fujita scale uses the severity of damage to determine the strength of a tornado.The Fujita scale rates tornadoes based on the severity of the damage they cause. Scientists examine the damage left by a tornado and determine what level (F0 to F5) best fits it. The overall rating of the tornado comes from the most severe damage it causes.
There is no particular size, as tornado ratings are based on the severity of the damage caused, not the size of the tornado. That said, F0 tornadoes are typically small. Most are less than 100 yards wide.
Tornado strength is typically measured using the Enhanced Fujita (EF) scale, which ranges from EF0 (weakest) to EF5 (strongest) based on damage caused. Observations made by trained storm spotters, meteorologists, and damage surveys help determine the tornado's intensity. Advanced technology like Doppler radar and photogrammetry also aid in assessing a tornado's strength.
Tornado size is typically determined by the Enhanced Fujita (EF) scale, which considers the tornado's estimated wind speeds and the damage caused. The EF scale ranges from EF0 (weakest) to EF5 (strongest), with tornado size typically increasing with higher EF ratings. Additionally, meteorologists may also assess the tornado's width and the path length to get a comprehensive understanding of its size.
The size of a tornado, or its width is determined by how wide the area of damage is. The rating of a tornado, which is not dependent on size (though there is some correlation) is based on the severity of the damage caused.
The damage is surveyed and where damage boundaries are is noted. This is the used to show how wide the tornado is. Note that the size is not a factor in how the tornado is rated but how intense the damage is.
The Fujita scale uses the severity of damage to determine the strength of a tornado.The Fujita scale rates tornadoes based on the severity of the damage they cause. Scientists examine the damage left by a tornado and determine what level (F0 to F5) best fits it. The overall rating of the tornado comes from the most severe damage it causes.
No machine is used. The intensity of a tornado is determined by a visual survey of the damage.
Ted Fujita discovered the Fujita Scale to determine how much strength a tornado has based on the damage it produces.
There is not given size for an F5 tornado as ratings are based on damage rather than size. Typical F5 damage is well constructed houses blown clean off their foundations.
The Fujita scale uses the severity of the damage caused by a tornado to determine its strength. The more severe the damage is the stronger the tornado.
The Fujita scale uses the severity of the damage a tornado causes to determine its rating.
Yes, a tornado can potentially knock down a mausoleum due to its extreme winds and destructive power. The strength and size of the tornado, as well as the construction materials and design of the mausoleum, will determine the extent of damage.
Forecasters predict the amount of damage from a tornado by analyzing factors such as the tornado's size, intensity, path, and the type of structures in its path. They use computer models and historical data to estimate potential damage levels.
It depends on the intensity and size of the tornado or hurricane. Generally, hurricanes tend to cause more widespread damage due to their larger size and longer duration. However, intense tornadoes can also cause significant damage in a localized area with extremely high winds.