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Hurricanes: Interesting Facts and F.A.Q. |
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The word hurricane comes from the Taino Native American word, hurucane, meaning |
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evil spirit of the wind. |
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The first time anyone flew into a hurricane happened in 1943 in the middle of World |
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War II. |
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A tropical storm is classified as a hurricane once winds goes up to 74 miles per hour or |
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higher. |
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Hurricanes are the only weather disasters that have been given their own names. |
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All hurricanes begin life in a warm moist atmosphere over tropical ocean waters. |
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A typical hurricane can dump 6 inches to a foot of rain across a region. |
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The most violent winds and heaviest rains take place in the eye wall, the ring of clouds |
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and thunderstorms closely surrounding the eye. |
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Every second, a large hurricane releases the energy of 10 atomic bombs. |
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Hurricanes can also produce tornadoes. They are not as strong as regular tornadoes and |
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last only a few minutes. |
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Slow moving hurricanes produce more rainfall and can cause more damage from |
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flooding than faster-moving, more powerful hurricanes. |
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Hurricane Floyd was barely a category I hurricane, but it still managed to mow down 19 |
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million trees and caused over a billion dollars in damage. |
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Most people who die in hurricanes are killed by the towering walls of sea water that |
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comes inland. |
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In the Pacific Ocean, Hurricanes are generally known as typhoons. In the Indian Ocean |
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they are called tropical cyclones. |
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The man who first gave names to hurricanes was an Australian weather forecaster |
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named C. Wragge in the early 1900s. |
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The first hurricane of the year is given a name beginning with the letter “A”. |
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Hurricane season is from June to November when the seas are at their warmest and |
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most humid, which are ripe conditions for a hurricane to develop. |
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The planet Jupiter has a hurricane which has been going on for over 300 years. It can be |
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seen as a red spot on the planet. This hurricane on Jupiter is bigger than the Earth itself. |
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Q. What are “Cape Verde” type hurricanes? |
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�Cape Verde-type hurricanes are those Atlantic basin tropical cyclones that develop into tropical |
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storms fairly close (<1000km or so) to the Cape Verde Islands and then become hurricanes |
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before reaching the Caribbean. (there may be other definitions). Typically, this occurs in August |
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and September, but in rare years (like 1995), there may be some in late July and/or early |
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October. The numbers range from none up to around five per year, with an average of around |
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2. |
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Q. What is the “eye?” How is it formed and maintained? |
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The “eye”(cid:157) is a roughly circular area of comparatively light winds and fair weather found at the |
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center of a severe tropical cyclone. Although the winds are calm at the axis of rotation, strong |
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winds may extend well into the eye. There is little or no precipitation in the eye, and sometimes |
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blue sky or stars can be seen. The eye is the region of lowest surface pressure and warmest |
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temperatures aloft: the eye temperature may be more than 10°C (18°F) warmer at an altitude |
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of 12 km (8 mi) than the surrounding environment, but only 0-2°C (0-3°F) warmer at the surface |
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in the tropical cyclone. Eyes range in size from 8 km (5 mi) to over 200 km (120 mi) across, but |
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most are approximately 30–60 km (20–40 mi) in diameter. The eye is surrounded by the |
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eyewall—”the roughly circular area of deep convection which is the area of highest surface |
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winds in the tropical cyclone. The eye is composed of air that is slowly sinking and the eyewall |
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has a net upward flow as a result of many moderate and occasionally strong updrafts and |
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downdrafts. The eye’s warm temperatures are due to compressional warming of the subsiding |
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air. Most soundings taken within the eye show a low-level layer which is relatively moist, with |
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an inversion above. This suggests that the sinking in the eye typically does not reach the ocean |
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surface, but instead only gets to around 1–3 km of the surface. |
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The general mechanisms by which the eye and eyewall are formed are not fully understood, |
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although observations have shed some light on the subject. The calm eye of the tropical |
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cyclone shares many qualitative characteristics with other vortical systems such as tornadoes, |
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waterspouts, dust devils and whirlpools. Given that many of these lack a change of phase of |
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water (i.e. no clouds and diabatic heating involved), it may be that the eye feature is a |
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fundamental component to all rotating fluids. It has been hypothesized that supergradient wind |
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flow (i.e. swirling winds that are stronger than what the local pressure gradient can typically |
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support) near the radius of maximum winds (RMW) causes air to be centrifuged out of the eye |
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into the eyewall, thus accounting for the subsidence in the eye. However, Willoughby found |
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that the swirling winds within several tropical storms and hurricanes were within 1–4% of |
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gradient balance. It may be that the amount of supergradient flow needed to cause such |
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centrifuging of air is only on the order of a couple percent and thus difficult to measure. |
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Another feature of tropical cyclones that probably plays a role in forming and maintaining the |
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eye is the eyewall convection. Convection in tropical cyclones is organized into long, narrow |
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rainbands which are oriented in the same direction as the horizontal wind. Because these |
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bands seem to spiral into the center of a tropical cyclone, they are sometimes called spiral |
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bands. Along these bands, low-level convergence is at a maximum, and therefore, upper-level |
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divergence is most pronounced above. A direct circulation develops in which warm, moist air |
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converges at the surface, ascends through these bands, diverges aloft, and descends on both |
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sides of the bands. Subsidence is distributed over a wide area on the outside of the rainband |
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but is concentrated in the small inside area. As the air subsides, adiabatic warming takes place, |
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and the air dries. Because subsidence is concentrated on the inside of the band, the adiabatic |
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�warming is stronger inward from the band causing a sharp fall in pressure across the band since |
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warm air is lighter than cold air. Because of the pressure drops on the inside, the tangential |
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winds around the tropical cyclone increase due to the increases in the pressure gradient. |
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Eventually, the band moves toward the center and encircles it and the eye and eyewall form. |
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Thus, the cloud-free eye may be due to a combination of dynamically forced centrifuging of |
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mass out of the eye into the eyewall and to a forced descent caused by the moist convection of |
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the eyewall. This topic is certainly one that can use more research to ascertain which |
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mechanism is primary. |
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Some of the most intense tropical cyclones exhibit concentric eyewalls—two or more eyewall |
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structures centered at the circulation center of the storm. Just as the inner eyewall forms, |
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convection surrounding the eyewall can become organized into distinct rings. Eventually, the |
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inner eye begins to feel the effects of the subsidence resulting from the outer eyewall, and the |
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inner eyewall weakens to be replaced by the outer eyewall. The increasing pressure due to the |
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destruction of the inner eyewall is usually more rapid than the decreasing pressure caused by |
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the intensification of the outer eyewall, causing the cyclone to weaken for a short period of |
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time. |
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Q. What does an average hurricane season mean? |
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An average hurricane season brings 10.6 tropical storms. Six of those become hurricanes and |
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two become major hurricanes, meaning category 3 or greater. |
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The average is based on data from 1968 to 2003. Officially, the Atlantic hurricane season is |
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from June 1 to November 30, although storms can form outside this time period. |
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Q. What year was the most active? What year was the least active? |
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Until recently, 1933 had the most named storms on record with 21. In 2005, that record was |
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broken when the National Hurricane Center identified 28 storms. Since all of the traditional |
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names had been used for 2005, the last six named storms were called "Alpha," "Beta," |
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"Gamma," "Delta," "Epsilon," and "Zeta," the first six letters of the Greek alphabet. |
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1933 is now second, and 1995 is third with 19 tropical storms. 2005 also had the most |
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hurricanes in one season with 15. The least number of tropical storms happened in 1983 when |
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just four storms formed. In 1982, just two hurricanes formed, making it the year with the least |
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amount of hurricanes since 1968. |
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Q. Do I need to open my windows when a hurricane approaches? |
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That's a question we get every hurricane season. The answer is a resounding no. It is a myth |
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that opening windows will help equalize pressure in your house when a hurricane approaches. |
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Your windows should be boarded up with plywood or shutters. Leaving your windows open will |
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just bring a lot of rain into your house and flying debris could fly into your home, too. Don't |
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waste time taping your windows either. It won't help prevent hurricane damage. It's just |
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another myth. |
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Q. Why are hurricanes named? |
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�A tropical cyclone is given a name when it becomes a tropical storm. It's much easier to |
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remember the name of a storm than try to track it by using latitude and longitude. It also helps |
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prevent confusion when there is more than one tropical storm or hurricane occurring at the |
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same time. |
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In 1953, the U.S. Weather Bureau began assigning women's names to tropical storms. In 1979, |
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men's names were included on the list. The names are in alphabetical order, excluding the |
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letters Q, U, X, Y and Z. |
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Today, the list includes names of English, Spanish and French origin because these languages |
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are most commonly used by the countries in the Atlantic Basin. There are six lists of names. |
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Each list is used in rotation every six years. |
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Q. How and why are names retired? |
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A name is retired when the storm caused so many deaths or so much destruction that it would |
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be confusing or insensitive to use the name again. The World Meteorological Organization is in |
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charge of retiring hurricane names and choosing new names. |
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The headline-making hurricanes of 2004 -- Charley, Frances, Ivan and Jeanne -- have all been |
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retired. They will be replaced by Colin, Fiona, Igor, and Julia when the list is used again this |
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year. |
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Q. Does El Niño affect hurricanes? |
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It can. In years with an El Niño, there are typically fewer tropical storms and hurricanes because |
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vertical shear increases during El Niño years. The vertical shear can prevent tropical cyclones |
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from forming and can prevent storms from intensifying. |
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El Niño is a warming of the equatorial Pacific Ocean waters, which usually occurs every three to |
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seven years and affects weather patterns around the world. |
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La Niña is the opposite of El Niño and is characterized by cooler than normal ocean waters in |
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the tropical Pacific. In years with La Niña, researchers have found that there is an increased |
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number of hurricanes and an increased chance that the United States and Caribbean will |
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experience hurricanes. |
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