Lightning Safety

DISCLAIMER




(Picture Copyright Gene Moore)


Lightning Safety

What would a Geocaching Electrical Safety Blog be without lightning information?
We've all been out geocaching in the rain and possibly big storms. Myself included. Here are some things you should know for the next time you hear thunder or see lightning.

Contents of this article include:
-An Explanation of Lightning
-Lightning Facts
-Lightning Safety Rules
-Other Information



An Explanation of Lightning:
(The information contained here was found at (thunder.msfc.nasa.gov/primer))
Inside of clouds are small particles known as “hydrometeors”. As these particles grow and interact, the collisions cause them to become charged. After studying these particles, researchers believe that the smaller particles tend to become positively charged while the larger particles become negatively charged. Gravity pulls the larger, negatively charged particles downward, and updrafts tend to send the smaller, positively charged particles upward. The result is that the higher portion of the cloud has a net positive charge while the lower portion of the cloud has a net negative charge. The separation of particles causes a large electrical potential not only within the cloud itself, but also between the cloud and the earth. This electrical potential can become millions of volts in magnitude. Eventually, the electrical resistance in the air breaks down and lightning, the electrical discharge between the regions of the cloud or between the cloud and the ground, is formed.

A single lightning “flash” is formed by a series of lightning “strokes”. Usually there are about four strokes per flash. An average duration of time for a stroke of lightning is about 30 microseconds. The average peak power of a stroke of lightning is about 10^12 watts.
The electrical discharge, lightning, results in heating up the atmosphere immediately around the lightning strike. The lightning can actually heat the area in the general vicinity to 20,000 degrees C! (This is 3 times the temperature of the surface of the sun). The air that has been heated by the lightning is then compressed. This produces a shock wave, which quickly decays to an acoustic wave as it flows away from where the lightning struck.

The flash and the resulting acoustic wave (thunder) that was described in the last paragraph both occur at the same time, so you may be asking “why do I hear the thunder so long after I see the lightning?” The reason is because light travels at 186,000 miles per second and sound only travels at one one-millionth of this speed (approximately 331 meters per second). Thus, although the lightning and the thunder occur at the same place and time, the thunder will be heard well after the lightning is seen. The further from the lightning you are, the longer the lag time will be. In fact, one way to estimate the distance to a lightning strike is by counting how long it takes to hear the thunder after you see the lightning strike. If you take this result and divide it by 5, you will have an approximation to the distance to the strike (in miles).



Lightning Facts:
(These facts are taken from the Automated Weather Source Online)
1) Average Lightning Stroke is 6 miles long.
2) The Temperature of lightning's return stroke can reach 50,000 degrees Fahrenheit. The surface of the sun is not even that hot! (around 11,000 degrees Fahrenheit).
3) Once the leading edge of a thunderstorm approaches to within 10 miles, you are at immediate risk due to the possibility of lightning strokes coming from overhanging anvil cloud. Because of this, many lightning deaths and injuries occur with clear skies directly overhead.
4) On average, thunder can only be heard over a distance of 3-4 miles, depending on humidity, terrain and other factors.
5) Average thunderstorm is 6-10 miles wide.
6) Average thunderstorm travels at a rate of 25 mph.
This fact was taken from National Geographic Online:
7) Each flash contains about one billion joules of electricity. That's enough energy to light a 100 W light bulb for three months.



Lightning Safety Rules:
(adapted from the National Oceanic and Atmospheric Administration (NOAA))
1) Stay indoors, and don't venture outside, unless absolutely necessary.
2) Stay away from open doors and windows, fireplaces, radiators, stoves, metal pipes, sinks, and plug-in electrical appliances.
3) Don't use plug-in electrical equipment like hair driers, electric toothbrushes, or electric razors during the storm.
4) Don't use the telephone during the storm. Lightning may strike telephone lines outside.
5) Don't take laundry off the clothesline.
6) Don't work on fences, telephone or power lines, pipelines, or structural steel fabrication.
7) Don't use metal objects like fishing rods and golf clubs. Golfers wearing cleated shoes are particularly good lightning rods.
8) Don't handle flammable materials in open containers.
9) Stop tractor work, especially when the tractor is pulling metal equipment, and dismount. Tractors and other implements in metallic contact with the ground are often struck by lightning. 10) Get out of the water and off small boats.
11) Stay in your automobile if you are traveling. Automobiles offer excellent lightning protection. 12) Seek shelter in buildings. If no buildings are available, your best protection is a cave, ditch, canyon, or under head-high clumps of trees in open forest glades.
13) When there is no shelter, avoid the highest object in the area. If only isolated trees are nearby, your best protection is to crouch in the open, keeping twice as far away from isolated trees as the trees are high.
14) Avoid hilltops, open spaces, wire fences, metal clotheslines, exposed sheds, and any electrically conductive elevated objects.
15) When you feel the electrical charge -- if your hair stands on end or your skin tingles -- lightning may be about to strike you. Drop to the ground immediately.



Other Information:
In Canada, lightning kills about seven people and seriously injures 60 to 70 people a year.

In the United States, according to the U.S. National Weather Service, 73 people die from lightning strikes each year and hundreds more suffer life-debilitating injuries. Memory loss, attention deficits, sleep disorders, numbness, dizziness, and weakness are some of the maladies cited.
The highest death rates from lightning in the United States are in Florida, which is known as the lightning capital of the country. According to the service, from 1959 to 2003 lightning killed 3,696 people in the United States. Of those, 425 were in the Sunshine State. (The only state that did not record a lightning death in the period was Alaska).

Take care,

Johnnygeo

Link's of Interest Regarding Lightning:
Alberta Government Daily Lightning Map
www.srd.gov.ab.ca/wildfires/fpd/maps_fwlight.cfm


I found most of my information for this article and thank:
www.public.asu.edu/~gbadams/lightning/lightning.html#explanation
www.weatheroffice.ec.gc.ca/lightning/index_e.html
news.nationalgeographic.com/news/2003/05/0522
For picture: Copyright, Gene Moore: www.chaseday.com
(Amazing pictures on website)

Effects of Electricity, Geocaching Electrical Safety

DISCLAIMER



It doesn't take a lot of current to harm a person(Current=The flow of electrons).
A small amount of electricity can still cause a lot of damage. Take a look at the chart below for examples of what can happen if you get an electric shock. Remember, It's current and not voltage that kills(Voltage is what "pushes" the current along).

***The electricity in your house can be as dangerous as the electricity in outdoor power lines.*** (The only difference between the two is how you look after an electrical shock)



Play safe,

Johnnygeo

Geocaching Electrical Safety 2

DISCLAIMER





It’s been great seeing my first article posted on geocaching sites all over North America. I thank all site administrators who posted it for their generosity. It’s also been great seeing all the communication on forums.

There have been many great comments and questions come up on the topic. One question that comes to mind that I really enjoyed from a Vancouver Island, British Columbia geocacher is:“Has anyone visited our cache **** ******* in **** *******? It's a small cache at one of the 4 legs of a tall power tower. Would this be considered a danger? If it is I will archive it right away.”
That's a great question. I look at two things when it comes to safety. Probability and Severity.
Probability: What's the chance something's ever going to fail on a tower? Slim to none? Who knows?

Severity: What loss would you receive from an incident occurring at this structure if something failed? NO SECOND CHANCE. In my opinion I would NOT have a cache anywhere around that structure.

Also, the power utilities would never give permission for a game-piece on their electrical supporting structures.

Here's another question that may pop up, “What if I make a fake electrical box cache? That's not dangerous, is it?” My question back is, Do kids know the difference between real and fake boxes/equipment? Do adults know the difference? If a kid was taken to a number of fake electrical box caches with parents and the next time, being alone, came across a real, open vandalized electrical box would he/she know to walk away from the immediate danger? In my opinion kids wouldn’t know the difference and the last thing I'd want is my kid(s) getting used-to or being comfortable playing around this equipment.

**Here's an example of what's out there (I took this from a geocache log that I came across), "... Container is an electrical box (no power) mounted on the side of my building. All Employees are aware of box so this should be a muggle free zone...

I hope kids OR adults are not trying to find caches by opening up any electrical box covers. Again, do kids know the difference between real and fake? I've seen electrical box caches that look like real live electrical equipment. That scares me. This is coming from a guy who investigates power line contacts and has seen the first hand results of electricity.

-Do I know of any kids getting killed by electricity when "Geocaching" around electrical equipment? No.

-Do I know of any kids getting killed by electricity when just "playing" around electrical equipment? Yes.
There are a lot of examples out there on the web. Here’s one very sad incident: ( link ) It doesn't matter if an electrical box, pole, conduit, wire, etc is at a potential of 120 or 8000 volts, if you’re in the path of electricity when it’s trying to go to ground and about 1 amp passes through your ticker you're done. It's amps that kill, not voltage. Amp (ampere)= amount of electrons flowing through a conductor. Voltage= what’s "pushing" those electrons through the conductor.

In my opinion there are so many other places we can hide our caches. Let's get in the habit of not hiding them on and around electrical equipment.
Thank you for listening,
Johnnygeo

Geocaching Electrical Safety

DISCLAIMER





I've been geocaching for about a year now. I have found many creative types of geocaches. This is what makes it fun and challenging. Lately I've been concerned about the amount of geocaches that are hidden in and around electrical equipment.

I am a Safety Coordinator for a Power Utility here in Alberta. It is my job to look out for the men and women who work on our electrical lines and equipment. It's also my job to look out for the general public.One of my job tasks that I really enjoy is teaching kids at schools electrical safety smarts. I'll go to elementary schools throughout the year to present a safety cartoon and explain in detail the indoor and outdoor electrical hazards that exist. I explain real life examples of people getting hurt really bad and death due to electricity. I show them what dangerous wires, boxes and other equipment looks like. I teach them to stay away from all electrical lines and equipment and not to play on guard rails that sometimes protect the high voltage electrical equipment.,br>
I am asking all parents and kids not to geocache around any electrical equipment. This is power poles, electrical boxes that are in your yard or power boxes in some other location.Please let me explain my concerns.I want you to remember two very important characteristics of electricity.

1. Electricity always wants to go back to the ground.

2. Electricity is lazy. It will take shortcuts to get to the ground.
That could be a ladder touching a overhead power line or a geocacher touching the side of a damaged electrical box. Cars hit these types of boxes all the time and sometimes there are no visible signs of damage. Inside there may be wires loose that come undone due to impact and cause the ground to be energized. (Step Potential/Ground being electrified)

Also, the cabinet may become energized and when you touch the cabinet the electricity will pass through you to get to the ground.(Touch Potential)

In North America we have had fatalities due to Step & Touch Potential. There is no second chance.

Sometimes equipment just fails. The insulating factors that protect the public may fail due to age and possibly energize the box.

The City of Edmonton transformers have a voltage of 13,800. That's over 100 times the voltage in your wall that you may use when you plug in a toaster. Imagine that going through you. Just don't take the chance.

I am asking in behalf as a Safety Professional and Geocacher please not to hide caches on or around electrical equipment and not to even look for a cache that may be on or around any electrical equipment. If you believe that it is in a hazardous zone please contact the person who placed the geocache. If that is not a successful route please contact the person who approved it. Most of the time the approver of a geocache is not aware that it is in a dangerous zone. Let's look out for each other.
Thank you for listening to my concerns and play safe,

Johnnygeo