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Tornados Rapid Grantler - Sonderausgabe 3 Video18.04.2018 Sturm Graz - SK Rapid Rapid City, SD is a Very Low Risk area for tornados. According to records, the largest tornado in the Rapid City area was an F3 in that caused 20 injuries and 0 deaths. *Tornado risk is calculated from the destruction path that has occured within 30 miles of the location. Tornados Rapid is on Facebook. Join Facebook to connect with Tornados Rapid and others you may know. Facebook gives people the power to share and makes the world more open and connected. A tornado is a violently rotating column of air that is in contact with both the surface of the Earth and a cumulonimbus cloud or, in rare cases, the base of a cumulus lexingtonfilm.com windstorm is often referred to as a twister, whirlwind or cyclone, although the word cyclone is used in meteorology to name a weather system with a low-pressure area in the center around which, from an observer looking Effect: Wind damage.
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A tornado that affected Hallam, Nebraska on May 22, , was up to 2. Tornadoes can have a wide range of colors, depending on the environment in which they form.
Those that form in dry environments can be nearly invisible, marked only by swirling debris at the base of the funnel.
Condensation funnels that pick up little or no debris can be gray to white. While traveling over a body of water as a waterspout , tornadoes can turn white or even blue.
Slow-moving funnels, which ingest a considerable amount of debris and dirt, are usually darker, taking on the color of debris.
Tornadoes in the Great Plains can turn red because of the reddish tint of the soil, and tornadoes in mountainous areas can travel over snow-covered ground, turning white.
Lighting conditions are a major factor in the appearance of a tornado. A tornado which is " back-lit " viewed with the sun behind it appears very dark.
The same tornado, viewed with the sun at the observer's back, may appear gray or brilliant white. Tornadoes which occur near the time of sunset can be many different colors, appearing in hues of yellow, orange, and pink.
Dust kicked up by the winds of the parent thunderstorm, heavy rain and hail, and the darkness of night are all factors that can reduce the visibility of tornadoes.
Tornadoes occurring in these conditions are especially dangerous, since only weather radar observations, or possibly the sound of an approaching tornado, serve as any warning to those in the storm's path.
Most significant tornadoes form under the storm's updraft base , which is rain-free,  making them visible. There is mounting evidence, including Doppler on Wheels mobile radar images and eyewitness accounts, that most tornadoes have a clear, calm center with extremely low pressure, akin to the eye of tropical cyclones.
Lightning is said to be the source of illumination for those who claim to have seen the interior of a tornado. Tornadoes normally rotate cyclonically when viewed from above, this is counterclockwise in the northern hemisphere and clockwise in the southern.
While large-scale storms always rotate cyclonically due to the Coriolis effect , thunderstorms and tornadoes are so small that the direct influence of the Coriolis effect is unimportant, as indicated by their large Rossby numbers.
Supercells and tornadoes rotate cyclonically in numerical simulations even when the Coriolis effect is neglected.
Typically, systems as weak as landspouts and gustnadoes can rotate anticyclonically, and usually only those which form on the anticyclonic shear side of the descending rear flank downdraft RFD in a cyclonic supercell.
Tornadoes emit widely on the acoustics spectrum and the sounds are caused by multiple mechanisms. Various sounds of tornadoes have been reported, mostly related to familiar sounds for the witness and generally some variation of a whooshing roar.
Popularly reported sounds include a freight train, rushing rapids or waterfall, a nearby jet engine, or combinations of these.
Many tornadoes are not audible from much distance; the nature of and the propagation distance of the audible sound depends on atmospheric conditions and topography.
The winds of the tornado vortex and of constituent turbulent eddies , as well as airflow interaction with the surface and debris, contribute to the sounds.
Funnel clouds also produce sounds. Funnel clouds and small tornadoes are reported as whistling, whining, humming, or the buzzing of innumerable bees or electricity, or more or less harmonic, whereas many tornadoes are reported as a continuous, deep rumbling, or an irregular sound of "noise".
Since many tornadoes are audible only when very near, sound is not to be thought of as a reliable warning signal for a tornado. Tornadoes are also not the only source of such sounds in severe thunderstorms; any strong, damaging wind, a severe hail volley, or continuous thunder in a thunderstorm may produce a roaring sound.
Tornadoes also produce identifiable inaudible infrasonic signatures. Unlike audible signatures, tornadic signatures have been isolated; due to the long-distance propagation of low-frequency sound, efforts are ongoing to develop tornado prediction and detection devices with additional value in understanding tornado morphology, dynamics, and creation.
Tornadoes emit on the electromagnetic spectrum , with sferics and E-field effects detected. Tornadic storms do not contain more lightning than other storms and some tornadic cells never produce lightning at all.
More often than not, overall cloud-to-ground CG lightning activity decreases as a tornado touches the surface and returns to the baseline level when the tornado dissipates.
In many cases, intense tornadoes and thunderstorms exhibit an increased and anomalous dominance of positive polarity CG discharges.
Luminosity has been reported in the past and is probably due to misidentification of external light sources such as lightning, city lights, and power flashes from broken lines, as internal sources are now uncommonly reported and are not known to ever have been recorded.
In addition to winds, tornadoes also exhibit changes in atmospheric variables such as temperature , moisture , and pressure. The pressure dropped gradually as the vortex approached then dropped extremely rapidly to mbar hPa Temperature tends to decrease and moisture content to increase in the immediate vicinity of a tornado.
Tornadoes often develop from a class of thunderstorms known as supercells. Supercells contain mesocyclones , an area of organized rotation a few miles up in the atmosphere, usually 1—6 miles 1.
In addition to tornadoes, very heavy rain, frequent lightning, strong wind gusts, and hail are common in such storms.
Most tornadoes from supercells follow a recognizable life cycle which begins when increasing rainfall drags with it an area of quickly descending air known as the rear flank downdraft RFD.
This downdraft accelerates as it approaches the ground, and drags the supercell's rotating mesocyclone towards the ground with it.
As the mesocyclone lowers below the cloud base, it begins to take in cool, moist air from the downdraft region of the storm. The convergence of warm air in the updraft and cool air causes a rotating wall cloud to form.
The RFD also focuses the mesocyclone's base, causing it to draw air from a smaller and smaller area on the ground. As the updraft intensifies, it creates an area of low pressure at the surface.
This pulls the focused mesocyclone down, in the form of a visible condensation funnel. As the funnel descends, the RFD also reaches the ground, fanning outward and creating a gust front that can cause severe damage a considerable distance from the tornado.
Usually, the funnel cloud begins causing damage on the ground becoming a tornado within a few minutes of the RFD reaching the ground.
Initially, the tornado has a good source of warm, moist air flowing inward to power it, and it grows until it reaches the "mature stage".
The low pressured atmosphere at the base of the tornado is essential to the endurance of the system. As the RFD completely wraps around and chokes off the tornado's air supply, the vortex begins to weaken, becoming thin and rope-like.
This is the "dissipating stage", often lasting no more than a few minutes, after which the tornado ends. During this stage the shape of the tornado becomes highly influenced by the winds of the parent storm, and can be blown into fantastic patterns.
The storm is contracting into a rope-like tube and, due to conservation of angular momentum , winds can increase at this point.
As the tornado enters the dissipating stage, its associated mesocyclone often weakens as well, as the rear flank downdraft cuts off the inflow powering it.
Sometimes, in intense supercells, tornadoes can develop cyclically. As the first mesocyclone and associated tornado dissipate, the storm's inflow may be concentrated into a new area closer to the center of the storm and possibly feed a new mesocyclone.
If a new mesocyclone develops, the cycle may start again, producing one or more new tornadoes. Occasionally, the old occluded mesocyclone and the new mesocyclone produce a tornado at the same time.
Although this is a widely accepted theory for how most tornadoes form, live, and die, it does not explain the formation of smaller tornadoes, such as landspouts, long-lived tornadoes, or tornadoes with multiple vortices.
These each have different mechanisms which influence their development—however, most tornadoes follow a pattern similar to this one.
A multiple-vortex tornado is a type of tornado in which two or more columns of spinning air rotate about their own axes and at the same time revolve around a common center.
A multi-vortex structure can occur in almost any circulation, but is very often observed in intense tornadoes.
These vortices often create small areas of heavier damage along the main tornado path. The satellite tornado may appear to " orbit " the larger tornado hence the name , giving the appearance of one, large multi-vortex tornado.
However, a satellite tornado is a distinct circulation, and is much smaller than the main funnel. A waterspout is defined by the National Weather Service as a tornado over water.
However, researchers typically distinguish "fair weather" waterspouts from tornadic i. Fair weather waterspouts are less severe but far more common, and are similar to dust devils and landspouts.
They form at the bases of cumulus congestus clouds over tropical and subtropical waters. They have relatively weak winds, smooth laminar walls, and typically travel very slowly.
They occur most commonly in the Florida Keys and in the northern Adriatic Sea. They form over water similarly to mesocyclonic tornadoes, or are stronger tornadoes which cross over water.
Since they form from severe thunderstorms and can be far more intense, faster, and longer-lived than fair weather waterspouts, they are more dangerous.
A landspout , or dust-tube tornado , is a tornado not associated with a mesocyclone. The name stems from their characterization as a "fair weather waterspout on land".
Waterspouts and landspouts share many defining characteristics, including relative weakness, short lifespan, and a small, smooth condensation funnel which often does not reach the surface.
Landspouts also create a distinctively laminar cloud of dust when they make contact with the ground, due to their differing mechanics from true mesoform tornadoes.
Though usually weaker than classic tornadoes, they can produce strong winds which could cause serious damage. A gustnado , or gust front tornado , is a small, vertical swirl associated with a gust front or downburst.
Because they are not connected with a cloud base, there is some debate as to whether or not gustnadoes are tornadoes. They are formed when fast moving cold, dry outflow air from a thunderstorm is blown through a mass of stationary, warm, moist air near the outflow boundary, resulting in a "rolling" effect often exemplified through a roll cloud.
If low level wind shear is strong enough, the rotation can be turned vertically or diagonally and make contact with the ground.
The result is a gustnado. A dust devil also known as a whirlwind resembles a tornado in that it is a vertical swirling column of air. However, they form under clear skies and are no stronger than the weakest tornadoes.
They form when a strong convective updraft is formed near the ground on a hot day. If there is enough low level wind shear, the column of hot, rising air can develop a small cyclonic motion that can be seen near the ground.
They are not considered tornadoes because they form during fair weather and are not associated with any clouds. However, they can, on occasion, result in major damage.
Small-scale, tornado-like circulations can occur near any intense surface heat source. Those that occur near intense wildfires are called fire whirls.
They are not considered tornadoes, except in the rare case where they connect to a pyrocumulus or other cumuliform cloud above. Fire whirls usually are not as strong as tornadoes associated with thunderstorms.
They can, however, produce significant damage. A steam devil is a rotating updraft between 50 and meters wide that involves steam or smoke. These formations do not involve high wind speeds, only completing a few rotations per minute.
Steam devils are very rare. They most often form from smoke issuing from a power plant's smokestack. Hot springs and deserts may also be suitable locations for a tighter, faster-rotating steam devil to form.
The phenomenon can occur over water, when cold arctic air passes over relatively warm water. The Fujita scale and the Enhanced Fujita Scale rate tornadoes by damage caused.
The Enhanced Fujita EF Scale was an update to the older Fujita scale, by expert elicitation , using engineered wind estimates and better damage descriptions.
The EF Scale was designed so that a tornado rated on the Fujita scale would receive the same numerical rating, and was implemented starting in the United States in An EF0 tornado will probably damage trees but not substantial structures, whereas an EF5 tornado can rip buildings off their foundations leaving them bare and even deform large skyscrapers.
Doppler weather radar data, photogrammetry , and ground swirl patterns cycloidal marks may also be analyzed to determine intensity and award a rating.
Tornadoes vary in intensity regardless of shape, size, and location, though strong tornadoes are typically larger than weak tornadoes.
The association with track length and duration also varies, although longer track tornadoes tend to be stronger. This is apparently mostly due to the lesser number of tornadoes overall, as research shows that tornado intensity distributions are fairly similar worldwide.
A few significant tornadoes occur annually in Europe, Asia, southern Africa, and southeastern South America. The United States has the most tornadoes of any country, nearly four times more than estimated in all of Europe, excluding waterspouts.
North America is a large continent that extends from the tropics north into arctic areas, and has no major east—west mountain range to block air flow between these two areas.
In the middle latitudes , where most tornadoes of the world occur, the Rocky Mountains block moisture and buckle the atmospheric flow , forcing drier air at mid-levels of the troposphere due to downsloped winds, and causing the formation of a low pressure area downwind to the east of the mountains.
Increased westerly flow off the Rockies force the formation of a dry line when the flow aloft is strong,  while the Gulf of Mexico fuels abundant low-level moisture in the southerly flow to its east.
This unique topography allows for frequent collisions of warm and cold air, the conditions that breed strong, long-lived storms throughout the year.
A large portion of these tornadoes form in an area of the central United States known as Tornado Alley. The United States averages about 1, tornadoes per year, followed by Canada, averaging 62 reported per year.
Tornadoes kill an average of people per year in Bangladesh, the most in the world. Tornadoes are most common in spring and least common in winter, but tornadoes can occur any time of year that favorable conditions occur.
Tornadoes can also be spawned as a result of eyewall mesovortices , which persist until landfall. Tornado occurrence is highly dependent on the time of day, because of solar heating.
The United Kingdom has the highest incidence of tornadoes per unit area of land in the world. The United Kingdom has at least 34 tornadoes per year and possibly as many as For example, the Birmingham tornado of and the London tornado of both registered F2 on the Fujita scale and both caused significant damage and injury.
Associations with various climate and environmental trends exist. For example, an increase in the sea surface temperature of a source region e.
Gulf of Mexico and Mediterranean Sea increases atmospheric moisture content. Increased moisture can fuel an increase in severe weather and tornado activity, particularly in the cool season.
Ocean conditions could be used to forecast extreme spring storm events several months in advance. Climatic shifts may affect tornadoes via teleconnections in shifting the jet stream and the larger weather patterns.
The climate-tornado link is confounded by the forces affecting larger patterns and by the local, nuanced nature of tornadoes.
Although it is reasonable to suspect that global warming may affect trends in tornado activity,  any such effect is not yet identifiable due to the complexity, local nature of the storms, and database quality issues.
Any effect would vary by region. Rigorous attempts to warn of tornadoes began in the United States in the midth century.
Before the s, the only method of detecting a tornado was by someone seeing it on the ground. Often, news of a tornado would reach a local weather office after the storm.
However, with the advent of weather radar, areas near a local office could get advance warning of severe weather. The first public tornado warnings were issued in and the first tornado watches and convective outlooks came about in In , it was confirmed that hook echoes were associated with tornadoes.
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