Essential Information & explanations, latest texts & monographs on Lightning.


Zapp! The Lightning of Empowerment: How to Improve Productivity, Quality, and Employee Satisfaction by Jeff Cox

Flash, Crash, Rumble, and Roll by Franklyn M. Branley

Life at Blandings: Something Fresh, Summer Lightning and Heavy Weather by P. G. Wodehouse

When Lightning Comes in a Jar by Patricia Polacco

Summer Lightning by P. G. Wodehouse

Lightning by Dean R. Koontz

When Lightning Strikes by Meg Cabot

Catch The Lightning (The Saga of the Skolian Empire) by Catherine Asaro

Autumn Lightning : The Education of an American Samurai by Dave Lowry

People of the Lightning (The First North Americans series, Book 7) by Kathleen O'Neal Gear

Thunder and Lightning: A No B.S. Hockey Memoir by Phil Esposito

A Flash of Lightning in the Dark of Night : A Guide to the Bodhisattva's Way of Life by Dalai Lama

With the Lightnings by David Drake

Lightning Strikes (Thrilling Hudson Series) by V. C. Andrews

Metallica - Ride the Lightning* by Jeff Jacobson


Lightning

For alternate meanings, see Lightning (disambiguation). Lightning is a massive natural electrostatic discharge produced during a thunderstorm. Lightning's abrupt electric discharge is accompanied by the emission of light. The electricity passing through the atmosphere rapidly heats and expands the air, producing lightning's characteristic thunder sound. Multiple cloud-to-ground and cloud-to-cloud lightning strokes are observed during a night-time thunderstorm. Table of contents showTocToggle("show","hide") 1 How Lightning is Formed 1.1 Negative Lightning 1.2 Positive Lightning 1.3 Bipolar Lightning 2 Various Types of Lightning 2.1 Intracloud Lightning, Sheet Lightning, Anvil Crawlers 2.2 Cloud-to-Ground Lightning, Anvil Lightning, Bead Lightning, Ribbon Lightning, Staccato Lightning 2.3 Cloud-to-Cloud Lightning 2.4 Ground-to-Cloud Lightning 2.5 Heat Lightning 2.6 Ball Lightning 2.7 Sprites, Elves, Jets and other Upper Atmospheric Lightning 2.8 Streak Lightning 2.9 Triggered Lightning 2.10 Lightning throughout the Solar System 3 Lightning Facts 4 Lightning Safety 4.1 Safer Locations 5 Lightning in Cultures and Media 6 Links How Lightning is Formed The first process in the generation of lightning generation is the separation of positive and negative charges within a cloud. Ice crystals inside cumulonimbus clouds rub against one another due to the strong updrafts in these clouds, thus building up a strong static charge. Positively charged crystals tend to rise to the top causing the cloud top to build up a positive static charge and negatively charged crystals and hailstones drop to the middle and bottom layers of the cloud building up a negative static charge. Cumulonimbus clouds that do not produce enough ice crystals usually fail to produce enough static electricity to cause lightning. Lightning can also occur as a result of volcanic eruptions or violent forest fires which generate sufficient dust to create a static charge. The second process is the build up of positive charges on the ground beneath the clouds. The earth is normally negatively charged with respect to the atmosphere. But as the thunderstorm passes over the ground, the negative charges at the bottom of the cumulonimbus cloud cause the positive charges on the ground to gather along the surface for several miles around the storm and becomes concentrated in vertical objects including trees and tall buildings. If you feel your hair stand up on end in a lightning storm beware. The negative charges from the cloud are pulling the positive charges inside your body to the top of your head and you could be in danger of being struck. The third process is the generation of the lightning. When sufficient negatives and positives gather in this way, an electrical discharge occurs within the clouds or between the clouds and the ground, producing the bolt. Negative Lightning A bolt of lightning usually begins when an invisible negatively charged stepped leader stroke is sent out from the cloud. As it does so, a positively charged streamer is sent out from the positively charged ground or cloud. When the leader and streamer meet, the electrical discharge takes place up the streamer into the cloud. This return stroke is the most luminous part of the strike, and the part that is really visible. Most lightning strikes usually last about a quarter of a second. Sometimes several strokes will travel up and down the same leader strike, causing a flickering effect. Thunder is caused when the discharge rapidly super heats the air around the strike, causing a shock wave to be sent out. Research published in 2002 [1] indicates that every lighting bolt also causes a similar but weaker electrodynamic pulse in the mesosphere, located 50 to 80 km (31 to 53 miles) above the earth, and above into the thermosphere. This type of lightning is known as negative lightning due to the discharge of negative charge from the cloud, and accounts for over 95% of all lightning. Statistics: an average bolt of negative lightning carries a current of 30 kiloamperes, transfers a charge of 5 coulombs, has a potential difference of about 100 megavolts, and lasts a few milliseconds. Positive Lightning Positive lightning makes up less than 5% of all lightning. It occurs when the stepped leader forms at the positively charged cloud tops, with the consequence that a positively charged streamer issues from the ground. The overall effect is a discharge of positive charges to the ground. Research carried out after the discovery of positive lightning in the 1970s showed that positive lightning bolts are typically six to ten times more powerful than negative bolts, last around ten times longer, and can strike several miles distant from the clouds. During a positive lighting strike, huge quantities of ELF and VLF radio waves are generated. As a result of their power, positive lightning strikes are considerably more dangerous. At the present time aircraft are not designed to withstand such strikes, since their existence was unknown at the time standards were set, and the dangers unappreciated until the destruction of a glider in 1999 [2]. It has since been suggested that it may have been positive lightning that caused the crash of Pan Am flight 214 in 1963, and speculation (denied by NASA despite photographic and infrasound evidence) that it may have caused the disintegration of Space Shuttle Columbia in 2003. Positive lighting is now also thought to be responsible for many forest fires. Positive lightning has is also been shown to trigger the occurrence of upper atmospheric lightning. It tends to occur more frequently in winter storms and at the end of a thunderstorm. Statistics (based on a small number of measurements): an average bolt of positive lightning carries a current of 300,000 amperes, transfers a charge of up to 300 coulombs, has a potential difference up to 1 gigavolt (a thousand million volts), and lasts for tens or hundreds of milliseconds. Bipolar Lightning Bipolar lightning occurs when bolts of negative and positive lightning alternately use the same channel through the air. Various Types of Lightning Some lightning strikes take on particular characteristics, and scientists and the public have given names to these various types of lightning. Intracloud Lightning, Sheet Lightning, Anvil Crawlers Intracloud lightning is the most common type of lightning which occurs completely inside one cumulonimbus cloud, jumping between different charged regions within the cloud. Intracloud lightning is commonly known as sheet lightning because it lights up the cloud and the surrounding sky with an apparent sheet of light. One special type of intracloud lightning is commonly called an anvil crawler. Discharges of electricity in anvil crawlers travel up the sides of the cumulonimbus cloud branching out at the anvil top. Cloud-to-Ground Lightning, Anvil Lightning, Bead Lightning, Ribbon Lightning, Staccato Lightning Cloud-to-ground lightning is a lightning discharge between a cumulonimbus cloud and the ground initiated by the downward-moving leader stroke. This is the second most common type of lightning. One special type of cloud-to-ground lightning is anvil lightning, a form of positive lightning, since it emanates from the anvil top of a cumulonimbus cloud where the ice crystals are positively charged, and is a form of positive lightning. In anvil lightning, the leader stroke issues forth in a nearly horizontal direction till it veers toward the ground. These usually occur miles ahead of the main storm and will strike without warning on a sunny day. They are signs of an approaching storm. Another special type of cloud-to-ground lightning is bead lightning. This is a regular cloud-to-ground stroke that contains a higher intensity of luminosity. When the discharge fades it leaves behind a string of beads effect for a brief moment in the leader channel. A third special type of cloud-to-ground lightning is ribbon lightning. These occur in thunderstorms where there are high cross winds and multiple return strokes. The winds will blow each successive return stroke slightly to one side of the previous return stoke, causing a ribbon effect. The last special type of cloud-to-ground lightning is staccato lightning which is nothing more than a leader stroke with only one return stroke. Cloud-to-Cloud Lightning Cloud-to-cloud lightning is a somewhat rare type of discharge lightning between two or more completely separate cumulonimbus clouds. Ground-to-Cloud Lightning Ground-to-cloud lightning is a lightning discharge between the ground and a cumulonimbus cloud from an upward-moving leader stroke. Most ground-to-cloud lightning occurs off of tall buildings, mountains and towers. Heat Lightning Heat lightning is nothing more than the faint flashes of lightning on the horizon from distant thunderstorms. Heat lightning was named because it often occurs on hot summer nights. Heat lightning can be an early warning sign that thunderstorms are approaching. Ball Lightning Ball lightning is described as a floating, illuminated ball that occurs during thunderstorms. They can be fast moving, slow moving or nearly stationary. Some make hissing or crackling noises or no noise at all. Some have been known to pass through windows and even dissipate with a bang. Ball lightning has been described by eyewitnesses but rarely, if ever, recorded by meteorologists. The engineer Nikola Tesla wrote in Electrical World and Engineer, March 5, 1904 "I have succeeded in determining the mode of their formation and producing them artificially." Later experimenters have been unable to reproduce his results. Sprites, Elves, Jets and other Upper Atmospheric Lightning Reports by scientists of strange lightning phenomena above storms date back to at least 1886, however it is only in recent years that fuller investigations have been made. Sprites are now well documented electrical discharges that occur high above the cumulonimbus cloud of an active thunderstorm. They appear as luminous reddish-orange neon-like flashes, last longer lasting than normal lower stratospheric discharges (typically around 17 milliseconds), and are usually spawned by discharges of positive lightning between the cloud and the ground. Sprites usually occur in clusters of two or more simultaneous vertical discharges, typically extending from 65 to 75 km (40 to 47 miles) above the earth, with or without less intense filaments reaching above and below. Sprites are preceded by a sprite halo that forms due to heating and ionization less than 1 milisecond before the sprite. Sprites were first photographed on July 6, 1989, by scientists from the University of Minnesota and named after the mischievous sprites in the plays of Shakespeare. They are caused by the electric field of a lighting stroke (as opposed to the electromagnetic pulse that causes a sprite - see below). Recent research [3] carried out at the University of Houston in 2002 indicates that some normal (negative) lighting discharges produce a sprite halo, the precursor of a sprite, and that every lightning bolt between cloud and ground attempts to produce a spite or a sprite halo. Blue jets differ from sprites in that they project from the top of the cumulonimbus above a thunderstorm, typically in a narrow cone, to the lowest levels of the ionosphere 40 to 50 km (25 to 30 miles) above the earth. They are also brighter than sprites and, as implied by their name, are blue in colour. They were first recorded on October 21, 1989 on a video taken from the space shuttle as it passed over Australia. Elves appear as a dim, flattened expanding glow around 400 km (250 miles) in diameter that lasts for, typically, just one millisecond. They occur in the ionosphere 100 km (60 miles) above the ground over thunderstorms. Their color was a puzzle for some time, but is now believed to be a red hue. Elves were first recorded on another shuttle mission, this time recorded off French Guiana on October 7, 1990. Elves is a frivolous acronym for Emissions of Light and Very Low Frequency Perturbations From Electromagnetic Pulse Sources. This refers to the process by which the light is generated; the excitation of nitrogen molecules due to electron collisions (the electrons having been energised by the electromagnetic pulse caused by a positive lightning bolt. On September 14, 2001, scientists at the Arecibo Observatory photographed a huge jet double the height of those previously observed, reaching around 80 km (50 miles) into the atmosphere. The jet was located above a thunderstorm over the ocean, and lasted under a second. Lightning was initially observed travelling up at around 50,000 m per second in a similar way to a typical blue jet, but then divided in two and speeded to 250,000 m / second to the ionosphere, where they spread out in a bright burst of light. On July 22, 2002 five gigantic jets between 60 and 70 km (35 to 45 miles) in length were observed over the South China Sea from Taiwan, reported in Nature [4]. The jets lasted under a second, with shapes likened by the researchers to giant trees and carrots. Researchers have speculated that such forms of upper atmospheric lightning may play a role in the formation of the ozone layer. Streak Lightning All lightning is streak lighting. This is nothing more than the return stroke, the visible part of the lightning stroke. Because most of these strokes occur inside a cloud, we do not see many of the individual return strokes in a thunderstorm. Triggered Lightning Lightning has been triggered in several instances. Lightning struck the Apollo 12 soon after takeoff, and has struck soon after thermonuclear explosions. For more information, see triggered lightning. Lightning throughout the Solar System Lightning has been observed on other planets, such as Venus and Jupiter, and electrical discharges between Jupiter and Io often occur. Lightning on Jupiter is estimated to be 100 times as powerful, but fifteen times rarer, than that which occurs on Earth. Lightning on Venus occurs so often that it is speculated that, were colonization to ever occur on Venus, lightning would be a primary power source. Lightning Facts A bolt of lightning can reach temperatures approaching 50,000 degrees Fahrenheit (or about 28000 kelvin) in a split second. This is many times hotter than the surface of the sun. A result of this is that lightning strikes that hit a loose soil or sandy region of the ground may fuse the soil or sand into channels called fulgurites. These fulgurites are sometimes found under the sandy surfaces of beaches and golf courses or in desert regions. It is one evidence that lightning spreads out into branching channels when it strikes the ground. Lightning Safety Lightning is responsible for approximately 100 deaths a year in the United States alone. Lightning ranks second only to floods for storm related casualties in the U.S. every year. Many of these deaths could be prevented if basic precautions were taken when thunderstorms are expected in an area. Listening to a radio to keep up to date on storms in the area is the best way to prepare for safety. One way to prepare for lightning safety is to install a device known as lightning conductor (commonly known as a lightning rod) for preventing damage by lightning to a building. A lightning conductor is a metal spike that is connected to earth by a low-resistance path. Should lightning strike a building, the current will travel through the conductor rather than through the fabric of the building, causing less damage. Electrical equipment can be protected from lightning by a lightning arrester. This is a device that contains one or more gas-filled spark gaps between the equipment's cables and earth. Should lightning strike one of the cables, the high voltage will cause the gas in the spark gap to break down and become a conductor, providing a path for the lightning to reach the ground without passing through the equipment. Safer Locations No place is truly 100% safe in a thunderstorm, but some places are more safe than others. Larger, better constructed structures are better than smaller or more open structures. Fully enclosed metal vehicles with the windows rolled up are good shelters, providing that no contact is made with any exposed metal inside or outside the vehicle. When outside, avoid the following:
  • High places and open fields
  • isolated trees
  • unprotected gazebos
  • rain or picnic shelters
  • baseball dugouts
  • communications towers
  • flagpoles
  • light poles
  • bleachers (metal or wood)
  • metal fences
  • convertibles
  • golf carts
  • water (ocean, lakes, swimming pools, rivers, etc.).
  • metal shafted umbrellas
If you find yourself trapped in an open area during a storm, position yourself close to the ground by squatting with your feet close together. Since lightning spreads when it hits the ground, you want to minimize as much surface area between you and the ground. Remember, humans are good conductors of electricity, and lightning tends to strike at the highest thing in an area, because electricity will always take the path of least resistance. When inside avoid the following:
  • Use of the telephone
  • taking a shower or bath
  • washing your hands
  • doing dishes
(basically anything to do with water)
  • any contact with conductive surfaces with exposure to the outside such as metal door or window frames, electrical wiring, telephone wiring, cable TV wiring, plumbing, etc.
  • using electrical appliances that plug into the wall
  • being near windows and doors in general
Lightning in Cultures and Media Lightning is often considered a divine or supernatural phenomenon. In many mythologies, it plays a role, and often have an affiliation with a certain god. Links
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