About 40 million lightning strikes hit U.S. soil each year, according to the Centers for Disease Control. Although lightning affects all regions in the United States, the Southeastern states are most at risk, with Florida holding the title of “lightning capital” of the country.

Lightning strikes are especially dangerous when they hit a structure, resulting in a fire, or if they hit and electrocute a person. From 2006 to 2021, there were 444 lightning-strike deaths in the United States.

Lightning happens when excess negative electrical charge builds up in the clouds and is discharged in a bolt that jumps to the positive charge on the ground.

Lightning can strike at one-third the speed of light and at temperatures exceeding 50,000 degrees Fahrenheit. It can damage structures made of masonry, wood, concrete, and even steel.

The strong electrical current can heat materials, especially water, to high temperatures, which can cause fire, loss of material strength, and explosions from super-heated steam and air.

Inventor and founding father Benjamin Franklin theorized it was possible to attract lightning bolts. He tied a metal key to his kites, continuing to fly them on stormy days in Philadelphia until he was able to capture a bolt in June 1752. Electricity went down the string of the kite until reaching the key.

His kite experiments proved that thunderclouds are electrified, and that lightning is an electrical discharge.

Franklin proposed that a building could be protected from lightning by placing a pointed iron rod at the peak of the building with a wire, often copper, running down the building to another rod buried into the earth.

Once on the ground, the electricity of the lightning bolt would be diluted and absorbed. In 1752 he finalized his design of the first lightning rod, and the following year the first rods were installed.

In the ensuing years, major buildings added lightning rods with great success. The use of lightning rods on roofs in the United States (and later in the rest of the world) has saved countless lives and has prevented unknown numbers of fires.

Eventually, solid-glass balls were incorporated into the design of some lightning rods, just below the highest point. Glass is an insulator and does not conduct electricity. If struck by lightning, the glass will shatter.

This served to confirm an electrical strike and suggest the lighting-protection system should be inspected for damage.

Most residential homes do not have lightning rods due to the rare occurrence of strikes on small structures. Longtime firefighters might disagree.

Today, lightning rods are required on structures over 200 feet tall (60 meters). Most are of the traditional Franklin design.

A system of lightning-protection conductors and lightning rods is installed on the building to intercept any lightning before it strikes. A wire enclosure, much like a Faraday cage, surrounds the building to conduct and block electromagnetic fields.

The lightning rods are not guaranteed to withstand the electrical voltage of all strikes, as they vary in intensity. The lifespan of a protection system is about 30 years.

The Eiffel Tower was designed as a giant lightning rod. At over 325 meters tall, the tower receives an average of five lightning strikes per year. Construction cranes often serve as another example of a modern lightning collector.

 

Doris Montag is a homespun historian and an exhibit curator who researches and displays historical collections of ordinary things, such as can openers, crochet, toy sewing machines, hand corn planters, powder compacts, egg cartons, and more. Contact or follow her on Facebook, HistoryofOrdinaryThings.

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