mrs_40_5_455-456-May15.indd


455MRS BULLETIN •  VOLUME 40 •  MAY 2015 •  www.mrs.org/bulletin

FEATURES POSTERMINARIES

I used to own a lodestone—a magnetic mineral. I don’t have it anymore because I lent it to someone and can’t remember 
who borrowed it. After it went missing, I realized how much I 
appreciated that hunk of earth. It was craggily, softball-sized, 
and seemed out of place on my organized desk. To make it 
look more appropriate for an offi ce setting, I stuck a few paper 
clips on its side, which teased gravity. I really enjoyed looking 
at that old rock. 
 One night, I was preparing notes for the following day’s 
lecture on magnetism and was looking for a neat fact or two 
to share with my students. I hoped to make the topic enticing, 
particularly to the apprehensive liberal arts majors, so I dove 
into a few textbooks and began hunting. Staring at the empty 
space where my lodestone formerly sat, I was inspired to learn 
more about it. However, it was late, and I had to choose between 
fi nishing my notes quickly or following my curiosity about 
magnets. My curiosity won. 
 I dug frantically for facts. First, I scanned a large stack of 

textbooks, but they didn’t offer much. In fact, they 
furnished no history at all and started the topic 

of magnetism with a description of quantum 
mechanics. I knew that would not engen-

der warm feelings from my students, so 
I kept digging. 
     I dashed downstairs to the build-
ing’s library and combed a pile of 
recent papers on lodestones and a 
mountain of rare, old magnetism 

books. The papers provided a few 

intriguing facts, like birds use mag-
nets to navigate. Turns out that 
birds have special cells tuned to 
the magnetic fi eld of the earth 
that guide them. Sea turtles do too. 
I knew my students would enjoy these 
nuggets, so I unearthed more. There are some 
bacteria that align along a magnetic fi eld. Embedded in 
their cell membranes are tiny iron crystals that cause them to 
move with a magnet—whether they want to or not. Another gem. 
 Hours passed and a long night of writing waited. But, I had 
one more question: “Where do lodestones come from?” That 
seemed like a simple question with a simple answer. It wasn’t. 
 I uncovered a paper from the 1930s that stated lightning 
created lodestones. That information struck me hard. But, my 
curiosity had to wait. It was very late and work beckoned. That 
night, I wrote my notes thinking about lodestones and lightning. 
 A few weeks later, on a cold December evening when the 
snow left me little opportunity to do anything else, I went back 
to this lodestone bombshell. Perplexed, I wanted to fi nd out 
if lightning indeed made lodestones. So I spent the evening 
sending emails to scientists who could confi rm this. 
 A few days later, I received a reply from Peter Wasilewski, 
a retired NASA scientist. He returned from giving lectures on 
a cruise and had time to speak about his work with lightning. 
I was thrilled. Now, I was going to get to the bottom of this. 
 I reached him by phone and asked him about lodestones. In 
a matter-of-fact way, Wasilewski told me that he made magnets 
using lightning. It became clear from the beginning that I was 

Zapping stones
How magnetic 

lodestones are born

fi nishing my notes quickly
magnets. My curiosity won

I dug frantically for fac
textbooks, but th

furnished n
of magne

mecha
der w

I k

i
r
m

bo

g-
hat

to 
h

ded in 
hem to

m

Photo on right: Rocket-triggering research at Langmuir Laboratory for Atmospheric Research, New Mexico, 2012. 
Photo by Jacob Trueblood. Courtesy of Langmuir Laboratory.

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456 MRS BULLETIN •  VOLUME 40 •  MAY 2015 •  www.mrs.org/bulletin

FEATURES POSTERMINARIES

much more excited about this conversation than he was. That 
made sense—he worked with lightning for a living. Everything 
else was boring in comparison. 
 Wasilewski studied what he calls nature’s permanent 
magnet—the lodestone. Lodestones served civilization for thou-
sands of years, since the beginning with the early compasses in 
China, which allowed us to reach new corners of the earth. And 
the unusual origin of lodestones was presumed decades ago. 
The fi rst clue that these stones were strange hinged on the fact 
that they are only found on the surface of the earth. Magnetic 
lodestones are not found in mines. 
 Wasilewski went on to tell me that a lodestone, or magnetite, 
a bluish mineral, is not a magnet on its own. It must be oxidized 
to include a bit of maghemite, a brownish substance, and then 
it is converted to a magnet with lightning. “The thing about the 
lightning bolt, besides being magical, is that it has a magnetic 
fi eld associated with it,” he said. Lightning changes the stone 
by providing a mammoth magnetic fi eld. One can demonstrate 
this by rubbing a needle with a magnet. After rubbing, the needle 
temporarily turns into a magnet too. Lightning and lodestones 
undergo a similar process but on a larger, supernatural scale. The 
magnetic fi eld around the lightning bolt permanently transforms 
lodestones into magnets.
 So how do you coax lightning to strike a stone? Ben Franklin 
knew. In colonial times, folks understood how to draw light-
ning—or “electric fi re”—using pointed metal lightning rods 
on top of buildings. However, Franklin took it one step further. 
Instead of waiting for lightning to come to him, he went to it. He 
fl ew a kite on a stormy night and cast a line for lightning using 
a metal key for bait. It worked. The electricity struck the kite 
and went down the string. And, while this story was believed 
to be a tall tale, Franklin actually described this experiment in 
a letter to Peter Collinson that was published in Philosophical 
Transactions in 1751.
 Wasilewski created lodestones using lightning in much the 
same way as Ben Franklin, but with much more expen-
sive tools. First, Wasilewski went to where lots of 
lightning occurs. He conducted his experiments 
at the Langmuir Laboratory on the top of South 
Baldy Mountain near Socorro, N.M. (New 
Mexico and Florida in the summer months 
are hotspots for lightning strikes.) Then, he 
needed a better “kite” and replaced Franklin’s 
contraption with a small bottle rocket that he 
launched into storm clouds. Attached to this 
rocket was a three-mile-long metal wire fastened 
to a plastic box. A bed of sand covered the bottom of 
the box, and the soon-to-be-zapped mineral sat on top. 
“All these parts you can get from your local hardware store,” 
said Wasilewski. “Except the rocket,” I replied.

 The experiment happened in a fl ash and what remained was 
charred or burnt. “There is so much energy,” said Wasilewski, 
“the sand melts.” In microseconds, lightning heats everything 
to over 2900°F. And the accompanying magnetic fi eld turns the 
mineral into a magnet. Before the rock was struck, paper clips 
passed by without a peep. Now, it is a magnetic lodestone and 
attracts paper clips just like the one that sat on my desk long 
ago. I miss that old stone. I need to get another one, maybe for 
Christmas, and this time I’ll write down the name of the person 
who borrows it, if I dare to lend it out at all.

Ainissa Ramirez

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htning in much the
more expen-
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sat on top.

Did you know?
Facts about lodestones

The magnetic properties of natural ferric 

ferrite (Fe
3
O

4
) stones (lodestones) were 

fi rst described by Greek philosophers 

in 600 BC.

The name lodestone comes 

from Middle English and means 

“coarse stone” or “leading stone.” 

The word magnet may have come 

from lodestones found in Magnesia, 

a region in Greece.

Early civilizations discovered that striking magnetite 

“lodestone” against pieces of iron would magnetize the 

iron. This magnetized iron was used to make the fi rst 

compasses during China's Han dynasty.

Magnetite lodestones are one of only 

two minerals that have been found to be 

naturally magnetized on earth. What is 

the other one?

Lodestones were once believed to 

possess magical properties of various 

kinds. If one was ill, the stone would 

be held in the hands and shaken well. It 

was said to cure wounds, snakebites, weak 

eyes, headaches, and defective hearing.

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