Tornado (Latin tonare, "to thunder"): violent whirling wind, characteristically
accompanied by a funnel-shaped cloud extending down from a cumulonimbus cloud.
Commonly known as a twister or cyclone, a tornado can be a few meters to about
a kilometer wide where it touches the ground, with an average width of a few
hundred meters. It can move over land for distances ranging from short hops
to many kilometers, causing great damage wherever it descends. The funnel is
made visible by the dust sucked up and by condensation of water droplets in
the center of the funnel. The same condensation process makes visible the generally
weaker sea-going tornadoes, called waterspouts that occur most frequently in
tropic waters. Most tornadoes spin counterclockwise in the northern hemisphere
and clockwise in the southern, but occasional tornados reverses this behavior. f8x17xs
The exact mechanisms that cause a tornado to form are still not fully understood,
but the funnels are always associated with violent motions in the atmosphere,
including strong updrafts and the passage of fronts. They develop within low-pressure
areas of high winds; the speed of the funnel winds themselves is often placed
at more than 480 km/h (more than 300 mph), although speeds of more than 800
km/h (500 mph) have been estimated for extremely strong storms. Damage to property
hit by a tornado results both from these winds and from the extremely reduced
pressure in the center of the funnel, which causes structures to explode when
they are not sufficiently ventilated to adjust rapidly to the pressure difference.
The pressure reduction is in keeping with Bernoulli's principle, which states
that pressure is reduced as velocity increases.
Tornadoes are most common and strongest in temperate latitudes, and in the U.S.
they tend to form most frequently in the early spring; the "tornado season"
shifts toward later months with increasing latitude. The number of funnels observed
each year could vary greatly in any given region.
Cyclone, in strict meteorological terminology, an area of low atmospheric pressure
surrounded by a wind system blowing, in the northern hemisphere, in a counterclockwise
direction. A corresponding high-pressure area with clockwise winds is known
as an anticyclone. In the southern hemisphere these wind directions are reversed.
Cyclones are commonly called lows and anticyclones highs. The term cyclone has
often been more loosely applied to a storm and disturbance attending such pressure
systems, particularly the violent tropical hurricane and the typhoon, which
center on areas of unusually low pressure.
Hurricane, name applied to migratory tropical cyclones that originate over
oceans in certain regions near the equator, and particularly to those arising
in the West Indian region, including the Caribbean Sea and the Gulf of Mexico.
Hurricane-type cyclones in the western Pacific are known as typhoons.
Most hurricanes originate within the doldrums, a narrow equatorial belt characterized
by intermittent calms, light variable breezes, and frequent squalls, and lying
between the northeast and southeast trade winds. As the doldrums of the Atlantic
are situated largely to the north of the equator, hurricanes do not occur in
the South Atlantic Ocean. The Pacific doldrums extend north and south of the
equator; thus hurricanes occur in the South and North Pacific oceans.
Hurricanes consist of high-velocity winds blowing circularly around a low-pressure
center, known as the eye of the storm. The low-pressure center develops when
the warm, saturated air prevalent in the doldrums is forced upward by denser,
cooler air. From the edge of the storm toward its center, the atmospheric pressure
drops sharply and the wind velocity rises. The winds attain maximum force close
to the point of lowest pressure (about 724 torr, or about 28.5 in. of mercury).
The diameter of the area affected by winds of destructive force may exceed 240
km (150 mi). Gale winds prevail over a larger area, averaging 480 km (300 mi)
in diameter. The strength of a hurricane is rated from 1 to 5. The mildest,
Category 1, has winds of at least 120 km/h (74 mph). The strongest (and rarest),
Category 5, has winds that exceed 250 km/h (155 mph). Within the eye of the
storm, which averages 24 km (15 mi) in diameter, the winds stop and the clouds
lift, but the seas remain very violent.
Hurricanes generally move in a path resembling the curve of a parabola. In the
northern hemisphere the storms usually travel first in a northwesterly direction
and in the higher latitudes turn toward the northeast. In the southern hemisphere
the usual path of the hurricane is initially to the southwest and subsequently
to the southeast. Hurricanes travel at varying rates. In the lower latitudes
the rate ranges from 8 to 32 km/h (5 to 20 mph) and in the higher latitudes
it may increase to as much as 80 km/h (50 mph). Those areas in which the hurricane
winds blow in the same direction as the general movement of the storm are subjected
to the maximum destructive violence of the hurricane.
Since 1943 U.S. military aircraft have been flying into hurricanes to measure
wind velocities and directions, the location and size of the eye, the pressures
within the storms, and their thermal structure. A coordinated system of tracking
hurricanes was developed in the mid-1950s, and periodic improvements have been
made over the years. Radar, sea-based recording devices, geosynchronous weather
satellites (since 1966), and other devices now supply data to the National Hurricane
Center in Florida, which follows each storm virtually from the beginning. Improved
systems of prediction and communication have been able to help minimize loss
of life in hurricanes, but property damage is still heavy, especially in coastal
regions. The strongest hurricane to hit the western hemisphere in the 20th century,
Gilbert, devastated Jamaica and parts of Mexico in 1988 with winds that gusted
up to 350 km/h (218 mph). Destructive hurricanes in recent U.S. history include
Agnes (1972), with $3 billion in damage and 134 deaths, Hugo (1989), with more
than $4 billion in damage and more than 50 deaths, and Andrew (1992), with an
estimated $12 billion in damage, more than 50 dead, and thousands left homeless.