The Fujita scale (F-Scale; ), or Fujita–Pearson scale (FPP scale), is a scale for rating

tornado intensity Tornado intensity is the measure of wind speeds and potential risk produced by a tornado. Intensity can be measured by In situ#Earth and atmospheric sciences, ''in situ'' or remote sensing measurements, but since these are impractical for wide- ...

, based primarily on the damage tornadoes inflict on human-built structures and vegetation. The official Fujita scale category is determined by

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s and

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after a ground or aerial damage survey, or both; and depending on the circumstances, ground-swirl patterns (

cycloid In geometry, a cycloid is the curve traced by a point on a circle as it Rolling, rolls along a Line (geometry), straight line without slipping. A cycloid is a specific form of trochoid and is an example of a roulette (curve), roulette, a curve g ...

al marks),

weather radar A weather radar, also called weather surveillance radar (WSR) and Doppler weather radar, is a type of radar used to locate precipitation (meteorology), precipitation, calculate its motion, and estimate its type (rain, snow, hail etc.). Modern w ...

data, witness testimonies, media reports and damage imagery, as well as

photogrammetry Photogrammetry is the science and technology of obtaining reliable information about physical objects and the environment through the process of recording, measuring and interpreting photographic images and patterns of electromagnetic radiant ima ...

or videogrammetry if motion picture recording is available. The Fujita scale was replaced with the

Enhanced Fujita scale The Enhanced Fujita scale (abbreviated EF-Scale) is a scale that rates tornado intensity based on the severity of the damage a tornado causes. It is used in the United States and France, among other countries. The EF scale is also unofficially ...

(EF-Scale) in the

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in February 2007. In April 2013,

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adopted the EF-Scale over the Fujita scale along with 31 "Specific Damage Indicators" used by

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(EC) in their ratings.

Background

The scale was introduced in 1971 by Ted Fujita of the

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, in collaboration with Allen Pearson, head of the National Severe Storms Forecast Center/NSSFC (currently the

Storm Prediction Center The Storm Prediction Center (SPC) is a US government agency that is part of the National Centers for Environmental Prediction (NCEP), operating under the control of the National Weather Service (NWS), which in turn is part of the National Oceani ...

/SPC). The scale was updated in 1973, taking into account path length and width. In the United States, starting in the late 1970s, tornadoes were rated soon after occurrence. The Fujita scale was applied retroactively to tornadoes reported between 1950 and the adoption of the scale in the National Oceanic and Atmospheric Administration (NOAA) National Tornado Database. Fujita rated tornadoes from 1916 to 1992 and

Tom Grazulis Thomas P. Grazulis (born August 17, 1942) is an American meteorologist who has written extensively about tornadoes and produced documentaries as head of ''The Tornado Project''. Biography Early career Thomas Grazulis grew up in Worcester, M ...

of The Tornado Project retroactively rated all known significant tornadoes (F2–F5 or causing a fatality) in the U.S. back to 1880. The Fujita scale was adopted in most areas outside of the

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. On February 1, 2007, the Fujita scale was decommissioned, and the

Enhanced Fujita Scale The Enhanced Fujita scale (abbreviated EF-Scale) is a scale that rates tornado intensity based on the severity of the damage a tornado causes. It is used in the United States and France, among other countries. The EF scale is also unofficially ...

was introduced in the United States. The new scale more accurately matches wind speeds to the severity of damage caused by the tornado. Though each damage level is associated with a wind speed, the Fujita scale is effectively a damage scale, and the wind speeds associated with the damage listed are not rigorously verified. The Enhanced Fujita Scale was formulated due to research that suggested that the wind speeds required to inflict damage by intense tornadoes on the Fujita scale are greatly overestimated. A process of expert elicitation with top engineers and meteorologists resulted in the EF scale wind speeds, but these are biased to United States construction practices. The EF scale also improved damage parameter descriptions.

Derivation

The original scale as derived by Fujita was a theoretical 13-level scale (F0–F12) designed to smoothly connect the

Beaufort scale The Beaufort scale ( ) is an empirical measure that relates wind speed to observed conditions at sea or on land. Its full name is the Beaufort wind force scale. It was devised in 1805 by Francis Beaufort a hydrographer in the Royal Navy. It ...

and the

Mach number The Mach number (M or Ma), often only Mach, (; ) is a dimensionless quantity in fluid dynamics representing the ratio of flow velocity past a boundary to the local speed of sound. It is named after the Austrian physicist and philosopher Erns ...

scale. F1 corresponds to the twelfth level of the Beaufort scale, and F12 corresponds to Mach number 1.0. F0 was placed at a position specifying no damage (approximately the eighth level of the Beaufort scale), in analogy to how Beaufort's zeroth level specifies little to no wind. From these wind speed numbers, qualitative descriptions of damage were made for each category of the Fujita scale, and then these descriptions were used to classify tornadoes.

F6 rating

At the time Fujita derived the scale, little information was available on damage caused by wind, so the original scale presented little more than educated guesses at

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ranges for specific tiers of damage. Fujita intended that only F0–F5 be used in practice, as this covered all possible levels of damage to frame homes as well as the expected estimated bounds of wind speeds. He did, however, add a description for F6, which he called an "inconceivable tornado", to allow for wind speeds exceeding F5 and possible advancements in damage analysis that might show it. Based on aerial photographs of the damage it caused, Fujita assigned the strongest tornado of the

1974 Super Outbreak The 1974 Super Outbreak was one of the most intense tornado outbreaks on record, occurring on April 3–4, 1974, across much of the United States. It was one of the deadliest tornado outbreaks in U.S. history. It was also the most violent t ...

, which affected Xenia, Ohio, a preliminary rating of F6 intensity ± 1 scale. The 1977 Birmingham–Smithfield F5 tornado's damage was surveyed by Ted Fujita and he "toyed with the idea of rating the Smithfield tornado an F6". In 2001, tornado expert Thomas P. Grazulis stated in his book ''F5–F6 Tornadoes''; "In my opinion, if there ever was an F6 tornado caught on video, it was the Pampa, Texas tornado of 1995". In 2023, it was announced by the

and National Weather Service Norman, Oklahoma that the 1970 Lubbock tornado was originally rated F6, which was later downgraded to its official rating of F5. Furthermore, the original wind speed numbers have since been found to be higher than the actual speeds required to incur the damage described at each category. The error manifests itself to an increasing degree as the category increases, especially in the range of F3 through F5. NOAA notes that "precise wind speed numbers are actually guesses and have never been scientifically verified. Different wind speeds may cause similar-looking damage from place to place—even from building to building. Without a thorough engineering analysis of tornado damage in any event, the actual wind speeds needed to cause that damage are unknown."Tornado FAQStorm Prediction Center
Site accessed June 27, 2006. The Tornado Project, headed by tornado expert Thomas P. Grazulis, states in reference to the F6 rating, this level is ever achieved, evidence for it might only be found in some manner of ground swirl pattern, for it may never be identifiable through engineering studies.

Parameters

The six categories are listed here, in order of increasing intensity. * The rating of any given tornado is of the most severe damage to any well-built frame home or comparable level of damage from engineering analysis of other damage. * Since the Fujita scale is based on the severity of damage resulting from high winds, a tornado exceeding F5 is an immeasurable theoretical construct. Frame-home structural damage cannot exceed total destruction and debris dispersal, which constitutes F5 damage. Tornadoes with wind speeds over are possible and such extreme gusts have been determined using mobile radar observation, but no tornado has received an official damage-based F6 rating.

Pearson scales

In 1973, Allen Pearson added additional path length and path width parameters to the Fujita scale. Under this version, each tornado would be assigned one Fujita scale rating and two Pearson scale ratings. For example, a tornado rated F4 based on damage with a path length of and a path width of would be rated F,P,P 4,4,4. Use of the Pearson scales was not widespread, however, and it remained more common to simply list a tornado's path length and path width directly.

Rating classifications

For purposes such as tornado climatology studies, Fujita scale ratings may be grouped into classes.

Decommissioning in the U.S.

The Fujita scale, introduced in 1971 as a means to differentiate tornado intensity and path area, assigned wind speeds to damage that were, at best, educated guesses. Fujita and others recognized this immediately and intensive engineering analysis was conducted through the rest of the 1970s. This research, as well as subsequent research, showed that tornado wind speeds required to inflict the described damage were actually much lower than the F-scale indicated, particularly for the upper categories. Also, although the scale gave general descriptions of damage a tornado could cause, it gave little leeway for strength of construction and other factors that might cause a building to sustain more damage at lower wind speeds. Fujita tried to address these problems somewhat in 1992 with the Modified Fujita Scale, but by then he was semi-retired and the National Weather Service was not in a position to update to an entirely new scale, so it went largely unenacted. In the United States, on February 1, 2007, the Fujita scale was decommissioned in favor of what scientists believe is a more accurate Enhanced Fujita Scale. The meteorologists and engineers who designed the EF Scale believe it improves on the F-scale on many counts. It accounts for different degrees of damage that occur with different types of structures, both manmade and natural. The expanded and refined damage indicators and degrees of damage standardize what was somewhat ambiguous. It also is thought to provide much better estimates of wind speeds and sets no upper limit on the wind speeds for the highest level, EF5.

began using the Enhanced Fujita scale in Canada on April 1, 2013.Assessing tornado damage: EF-scale vs. F-scale
. Toronto has seen several tornados since the 1900s. The U.S. and Canada are the only countries to officially adopt the Enhanced Fujita scale.

References

Bibliography

* *

External links

Enhanced F Scale for Tornado Damage
( SPC)
The Enhanced Fujita Scale (EF Scale)
(SPC)
A Guide for Conducting Convective Windstorm Surveys
(NWS SR146)
The Tornado: An Engineering-Oriented Perspective
(NWS SR147)

(

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) {{EF scale Hazard scales Wind Tornado Scales in meteorology