|
What causes lightning?
Lightning originates around 15,000 to 25,000 feet above sea level when
raindrops are carried upward until some of them convert to ice. For reasons
that are not widely agreed upon, a cloud-to-ground lightning flash originates in
this mixed water and ice region. The charge then moves downward in 50-yard
sections called step leaders. It keeps moving toward the ground in these
steps and produces a channel along which charge is deposited. Eventually, it
encounters something on the ground that is a good connection. The circuit is complete
at that time, and the charge is lowered from cloud to ground.
The return stroke is a flow of charge (current) which produces a luminosity
much brighter than the part that came down. This entire event usually takes
less than half a second.
What causes thunder?
Thunder is caused by lightning. The bright light of the lightning flash
caused by the return stroke mentioned above represents a great deal of energy. This
energy heats the air in the channel to above 50,000 degrees F in only a few
millionths of a second! The air that is now heated to such a high temperature
had no time to expand, so it is now at a very high pressure. The high
pressure air then expands outward into the surrounding air compressing it
and causinga disturbance that propagates in all directions away from the stroke. The
disturbance is a shock wave for the first 10 yards, after which it becomes an
ordinary sound wave, or thunder.
Thunder can seem like it goes on and on because each point along the channel
produces a shock wave and sound wave.
How far away from a storm can lightning strike?
It's not clear what the maximum possible distance might be. Lightning has
been known to strike more than 10 miles from the storm in an area of clear sky above.
How long can a lightning bolt be?
Recent research from Vaisala-GAI's LDAR and LDAR II lightning detection
networks show that lightning can travel 60 miles or more. They find the longest
bolts originate in the front of a squall line and travel 62 miles
horizontally back into the trailing stratiform region behind the squall
line. The longest bolt they have seen to date was 118 miles long
in the Dallas-Ft. Worth, TX area.
Since 3-D lightning measurements are relatively new, however, scientists
are learning more every day and these numbers may change.
Where does lightning usually strike?
Lightning comes from a parent cumulonimbus cloud. These thunderstorm clouds
are formed wherever there is enough upward motion, instability in the
vertical, and moisture to produce a deep cloud that reaches up to levels somewhat
colder than freezing.
These conditions are most often met in summer. In general, the US mainland
has a decreasing amount of lightning toward the northwest. Over the entire
year, the highest frequency of cloud-to-ground lightning is in Florida between
Tampa and Orlando. This is due to the presence, on many days during the year,
of a large moisture content in the atmosphere at low levels (below 5,000
feet), as well as high surface temperatures that produce strong sea breezes along
the Florida coasts. The western mountains of the US also produce strong
upward motions and contribute to frequent cloud-to-ground lightning. There are
also high frequencies along the Gulf of Mexico coast westward to Texas, the
Atlantic coast in the southeast US, and inland from the Gulf. Regions along
the Pacific west coast have the least cloud-to-ground lightning.
Flashes that do not strike the surface are called cloud flashes. They may be
inside a cloud, travel from one part of a cloud to another, or from cloud to
air.
Can lightning be detected?
Since the 1980s, cloud-to-ground lightning flashes have been detected and
mapped in real time across the entire US by several networks.
In 1994, the networks were combined into one national network consisting of
antennas that detect the angle from ground strike points to an antenna
(direction-finder antenna), that detect the time it took for them to arrive at an antenna
(time-of-arrival method), or a combination of both detection methods. The network
is operated by Global Atmospherics, owned by Vaisala
who manufactures environmental and industrial measurement products.
Flashes have also been detected from space during the past few years by an
optical sensor. This experimental satellite covers the earth twice a day in
tropical regions. The satellite also detects flashes that do not strike the
ground, but cannot tell the difference between ground strikes and cloud
flashes.
How many flashes are there?
Over the continental 48 states, an average of 20,000,000 cloud-to-ground
flashes have been detected every year since the lightning detection network covered
all of the continental US in 1989. In addition, about half of all flashes
have more than one ground strike point, so at least 30 million points on the
ground are struck on the average each year in the US. Besides
cloud-to-ground flashes, there are roughly 5 to 10 times as many cloud flashes as there are
to ground.
What types of damage can lightning cause?
Cloud-to-ground lightning can kill or injure people by direct or indirect
means. The lightning current can branch off to a person from a tree, fence, pole,
or other tall object. It is not known if all people are killed who are
directly struck by the flash itself. In addition, flashes may conduct their current
through the ground to a person after the flash strikes a nearby tree,
antenna, or other tall object. The current also may travel through power or telephone
lines, or plumbing pipes to a person who is in contact with an electric
appliance, telephone, or plumbing fixture.
Similarly, objects can be directly struck and this impact may result in an
explosion, burn, or total destruction. Or, the damage may be indirect when the
current passes through or near it. Sometimes, current may enter a building
and transfer through wires or plumbing and damage everything in its path.
Similarly, in urban areas, it may strike a pole or tree and the current then travels to
several nearby houses and other structures and enter them through wiring or
plumbing.
How to stay safe when lightning is around: Use the 30-30 Rule!
The best defense is to plan ahead and avoid exposure to lightning when a
thunderstorm occurs. Know where safe shelter is located and leave enough time to
reach safe shelter before your danger level is high. Don't be an isolated
tall object, and don't be connected to anything that may be an isolated tall object.
NSSL's scientists and collaborators did a study to find out how close is too
close. They found that 80% of the next lightning strikes in a storm are within
2 to 3 miles of each other in Florida, but as far as 6 miles from each other
in Oklahoma. Use the 'flash-to-bang' method to find the distance to lightning.
Safe shelter must be reached by the time a flash is within 30 seconds
flash-to-bang. In most cases, then, when you can hear thunder you are no longer safe.
Lightning safety is also considered at: List of 1 items.. National Lightning Safety Institute
list end List of 1 items.. Lightning Safety from NOAA.
But there is often blue sky in some direction while lightning is occurring
nearby, and it may not be raining, so pay much more attention to the lightning
than the rain. A particularly difficult situation is the first flash from a
storm--watch for a storm that is growing quickly, such as when a storm is becoming
very dark at its base or is growing very tall. An equally dangerous
situation is when a storm appears to be finished, and only light rain and/or occasional
thunder are heard, but the cloud overhead continues to be fairly dark. The
most common situation for a lightning death or injury in Florida was found NOT
to be in the heaviest rain area with lots of flashes, but after or before
the time when rain and lightning was the most intense. So, the weak storm without
too many flashes, at the edge of a larger storm, or early or late in the
life of a storm is most dangerous.
The best shelter is a substantial building that has plumbing and wiring--in
other words, one that is used or lived in by people for a major portion of the
day. A very unsafe building for lightning has only a roof and some supports,
but no wiring or pipes extending into the ground. A vehicle with a metal roof
provides good shelter, and is much better than being in the open or in an
ungrounded building, but is not as good as being in a building that is grounded
by wires and pipes.
Call to Action!
Bill Roeder recently shared these levels of safety with the National Weather
Association:http://www.nwas.org
The most important statement for everyone to understand, memorize and to act
on is: NO PLACE OUTSIDE IS SAFE from lightning NEAR THUNDERSTORMS!
Level-1: Plan your activities around the weather to avoid the lightning
strike hazard. If you are going to be outside, know the weather forecast
beforehand. Know the local weather patterns.
Level-2: While outside, use the "30-30 Rule" to know when to seek a safer
location.
List of 3 items.. When you see lightning, count the time until you hear thunder. If this
time is 30 seconds or less, go to a safer place. If you can't see the lightning,
just hearing the thunder is a good back up rule to use to take cover.
.. Wait 30 minutes or more after hearing the last thunder before leaving the
safer location.
.. The "30-30 Rule" will not work well for "first-strike" lightning from
locally developing thunderstorms. Watch for brewing convection and seek
shelter
before the first lightning is produced.
list end.
Level-3: Go to a safer location when required. Don't hesitate; go to a safer
place immediately! The safest place commonly available is a large fully enclosed
substantially constructed building, e.g. a typical house. Once inside, stay
away from any electrical conducting path from the outside, e.g., corded telephones,
electrical appliances, and plumbing. If you can't get to a substantial
building, a vehicle with a solid metal roof and metal sides is a reasonable second
choice. Avoid contact with conducting paths going outside. Convertibles and
open-framed vehicles do not count as lightning shelters.
Level-4: If you can't get to a safer location, avoid the most dangerous
locations and activities. Avoid higher elevations, wide-open areas, tall
isolated
objects, water-related activities, and open vehicles. Avoid unprotected open
structures like picnic pavilions, rain shelters, and bus stops. DO NOT GO
UNDER TREES TO KEEP DRY DURING THUNDERSTORMS!
Level-5: USE THIS ONLY AS A DESPERATE LAST RESORT! If you are outside and
far away from a safer place, proceed to the safest location. If lightning is imminent,
it will often give a few seconds of warning: hair standing up, tingling
skin, light metal objects vibrating, seeing corona discharge, and/or hearing a
crackling or "kee-kee" sound. If you are in a group, spread out so there are
several body lengths between each person. Once spread out, use the lightning
crouch - put your feet together, squat down, tuck your head, and cover your ears.
When the immediate threat of lightning has passed, continue heading to the
safest place possible. Remember, this is a desperate last resort; you are much
safer following the previous guidance and avoiding this high-risk situation.
Level-6: The first step in lightning first aid is to call 911. All deaths
from lightning are from cardiac arrest or stopped breathing at the time of the
strike. CPR or mouth-to-mouth-resuscitation is the recommended first aid.
No lightning safety guidelines will give 100% guaranteed total safety, but
these steps will help you avoid the vast majority of lightning casualties.
Lightning is THE underrated weather hazard. Fortunately, the vast majority
of these casualties can be easily avoided.
This article courtesy of the
National Severe Storms Laboratory,
a research laboratory associated with the
National Oceanic and Atmospheric Administration |