Lightning

Lightning :  What causes lightning, know in detail?

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What causes lightning?
Lightning is an electrical discharge caused by imbalances between storm clouds and the ground, or within the clouds themselves. … This heat causes surrounding air to rapidly expand and vibrate, which creates the pealing thunder we hear a short time after seeing a lightning flash.

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Lightning : FULL ARTICLE

lightning, the visible discharge of electricity that occurs when a region of a cloud acquires an excess electrical charge, either positive or negative, that is sufficient to break down the resistance of air.A brief description of lightning follows. For a longer discussion of lightning within its meteorological context, see thunderstorm electrification in the article thunderstorm.Lightning is usually associated with cumulonimbus clouds (thunderclouds), but it also occurs in stratiform clouds (layered clouds with a large horizontal extent), in snowstorms and dust storms, and sometimes in the dust and gases emitted by erupting volcanoes. During a thunderstorm, lightning can occur within the cloud, between clouds, between the cloud and the air, or between the cloud and the ground.


Learn the science of lightning strikes and see how Faraday cages or Faraday suits channel lightning away from the objects they contain
The physics of lightning strikes and how Faraday cages or Faraday suits channel lightning away from the objects they contain.
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Lightning occurs when regions of excess positive and negative charge develop within the cloud. Typically, there is a large volume of positive charge in the upper regions of the cloud, a large negative charge in the centre, and a small positive charge in the lower regions. These charges reside on water drops, ice particles, or both.

electrical charge distribution in a thunderstorm

When the electrical charges become sufficiently separated in a thundercloud, with some regions acquiring a negative charge and others a positive, a discharge of lightning becomes likely. About one-third of lightning flashes travel from the cloud to the ground; most of these originate in negatively charged regions of the cloud.
Get a Britannica Premium subscription and gain access to exclusive content.Subscribe Now Cloud-to-ground lightning is initiated by a preliminary breakdown process within the cloud, typically between the centre region of negative charge and the small positive charge below it. This process creates a channel of partially ionized air—air in which neutral atoms and molecules have been converted to electrically charged ones. Next, a stepped leader (initial lightning stroke) forms and propagates downward, following channels created by the preliminary breakdown process. The leader is highly branched in the direction of its propagation. Most leader channels are negatively charged. When the stepped leader nears the ground, an upward, connecting discharge of opposite polarity rises and meets it at a point typically about 30 metres (100 feet) above the ground. When the junction is complete, the cloud is effectively connected to the ground, and a very bright return stroke propagates back to the cloud at a speed about one-third the speed of light, following the leader channel. It flash to the ground contains three or four leader-return stroke sequences in rapid succession. Occasionally, when there is a strike to a mountain or tall building, the first leader will start at the ground and propagate upward.

Triggered lightning

This discharge is triggered by the presence of the tall tower atop Mount San Salvatore, near Lugano, Switzerland.

Lightning
Uncover the science behind the phenomena of lightning and thunder
Learn about lightning and thunder.

The potential difference between cloud and ground is of the order of 10 to 100 million volts, and the peak currents in return strokes to negative leaders are typically about 30,000 amperes. The peak temperatures in the return-stroke channel are on the order of 30,000 °C (50,000 °F). The entire process is very rapid; the leader stroke reaches the ground in about 30 milliseconds, and the return stroke reaches the centre of the cloud in about 100 microseconds. During this stage, approximately 105 joules of energy per metre are dissipated. This sudden dissipation splits air molecules in the channel—principally those of nitrogen, oxygen, and water—into their respective atoms, and, on average, one electron is removed from each atom. The conversion from neutral air molecules to a completely ionized plasma occurs in a few microseconds.

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Thunder is produced by rapid heating of the air in the lightning channel and a consequent increase in air pressure. The pressure produced from the stroke plasma, which is much greater than the pressure of the surrounding atmosphere, causes the channel to expand at supersonic speeds, which ultimately produces a sound wave heard as thunder. The claps, rolls, and rumbles that characterize the sound of thunder are produced by the complex geometry and tortuosity of this channel as well as the effects of the atmosphere and local topography on sound propagation.

Lightning
lightning and thunder(Top) As shown in the chart, the elapsed time between seeing a flash of lightning and hearing the thunder is roughly three seconds for each kilometre, or five seconds for each mile. (Bottom) An observer’s relative distance from the main lightning channel and its secondary branches determines whether thunder is heard to start with a sudden clap or a softer rumbling.
Lightning is a significant weather hazard and occurs at an average rate of 50 to 100 discharges per second worldwide. Lightning rods and metallic conductors can be used to protect a structure by intercepting and diverting the lightning current into the ground as harmlessly as possible. It is likely to occur, people are advised to stay indoors or in a car, away from open doors and windows, and to avoid contact with any electrical appliances or plumbing that might be exposed to the outside environment.

Lightning
lightning rod types (Left top) Vertical rods or masts up to 15 metres in height create lightning protection zones that extend in a 45° cone from the rod’s tip. (Left bottom) Connecting two rods with a wire extends the zone of protection. (Right) Towers taller than 30 metres provide protection for an area 30 metres high and 60 metres wide. The protected zone is in the shape of an inverted funnel with inward-curving sides. Towers between 15 and 30 metres high create protected zones of similar shape but with height and width equal to tower height.

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