Tornadoes, in and of themselves, are not bad as their formation is the way the Earth's atmosphere releases energy. Yet they are one of nature’s most fearsome creations due to the destruction they cause.
Each year they constitute a major hazard around the United States. You help to increase warning lead time by recognizing and reporting clues associated with tornado development and the various stages of the tornado life cycle.
Understandably, the vast majority of tornadoes occur east of the Rockies along with the number of thunderstorms. However, unlike where the greatest the number of thunderstorms occur, most tornadoes occur in the Central Plains.
While it is true the Central Plains experiences the annual greatest number of tornadoes on average, the area with the greatest risk of a tornado shifts each season. In winter, the Gulf Coast state from Louisiana to Georgia tend to have the most tornadoes on average.
In Spring, this area shifts into North Central Texas and Oklahoma. By summer, the risk area moves north to the Central and North Plains.
In Autumn, the season wih the least number of tornadoes on average, the main risk area has shifted back south, extending from East Texas into Mississippi. Finally, the risk area returns back to the Gulf Coast states in winter.
The National Weather Service is the only federal agency with authority to provide 'official' tornado EF Scale ratings. The goal is to assign an EF Scale category based on the highest wind speed as indicated by damage.
NWS personnel conduct storm damage surveys to determine the strength of the storm. Based upon multiple criteria (a building's type, age, construction material, degree of damage, etc.) a maximum wind speed is assigned to the storm which then determines the EF rating.
Following is a broad definition of damage that occurs with each EF Scale rating.
Rating | Wind | Typical Observed Damage |
---|---|---|
EF0 | 65 to 85 mph (105 to 137 km/h) |
Light damage. Peels surface off some roofs; some damage to gutters or siding; branches broken off trees; shallow-rooted trees pushed over. |
EF1 | 86 to 110 mph (138 to 177 km/h) |
Moderate damage. Roofs severely stripped; mobile homes overturned or badly damaged; loss of exterior doors; windows and other glass broken. |
EF2 | 111 to 135 mph (178 to 219 km/h) |
Considerable damage. Roofs torn off well-constructed houses; foundations of frame homes shifted; mobile homes completely destroyed; large trees snapped or uprooted; light-object missiles generated; cars lifted off ground. |
EF3 | 136 to 165 mph (220 to 266 km/h) |
Severe damage. Entire stories of well-constructed houses destroyed; severe damage to large buildings such as shopping malls; trains overturned; trees debarked; heavy cars lifted off the ground and thrown; structures with weak foundations blown away some distance. |
EF4 | 166 to 200 mph (267 to 322 km/h) |
Devastating damage. Whole frame houses Well-constructed houses and whole frame houses completely leveled; cars thrown and small missiles generated. |
EF5 | >200 mph (>322 km/h) |
Incredible damage. Strong frame houses leveled off foundations and swept away; automobile-sized missiles fly through the air in excess of 330 feet (100 meters); high-rise buildings have significant structural deformation; incredible phenomena will occur. |