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| Alessandro Volta |
In the late 18th
century, scientists were fascinated with electricity. Ben Franklin had
conducted his famous kite experiment, drawing electricity from
lightning in 1752. Leyden jars, invented in 1746, could store charge
and produce a spark of electricity. Doctors were treating patients with
electric shocks for all sorts of ills. But further research on
electromagnetism and any practical use of electricity would require a
source of continuous current, which was not available until 1800, when
Alessandro Volta invented the first electric pile, the forerunner of
the modern battery.
Alessandro Volta was born in Como, Italy in
1745, to a wealthy noble family. He attended the Como Jesuit school and
a local seminary. His teachers tried to persuade him to enter the
priesthood, while his family wanted him to study law. But Volta, even
at age 14, knew his real interest was physics. Like many scientists of
the time, he was especially fascinated by electricity.
Volta
dropped his formal studies, and did not attend university. Nonetheless,
by age 18 he was corresponding directly with accomplished scientists,
and conducting experiments in the laboratory of a family friend. In
1769 he wrote a treatise “On the forces of attraction of electric
fire,” in which he put forward a theory of electric phenomena.
In
1774 Volta accepted a post as an instructor at the Como grammar school,
and continued his experiments on electricity. In 1775 he devised a
“perpetual electrophorus” that could transfer charge to other objects,
and in the next few years he noticed the bubbling of methane in swamps
and was able to isolate the gas. Volta was made a professor of physics
at the University of Pavia in 1778.
Volta’s early work had
already made him a well-known scientist, but his greatest contribution
to science was the voltaic pile, which he invented as part of a
scientific dispute with Luigi Galvani.
In 1780, Galvani, an
Italian physician and anatomist, was experimenting with dissected
frogs’ legs and their attached spinal cords, mounted on iron or brass
hooks. In most of his experiments, the frog leg could be made to twitch
when touched with a probe made of another metal. The frog legs would
also jump when hanging on a metal fence in a lightning storm. These
observations convinced Galvani that he had found a new form of
electricity, which was being generated by the frogs’ muscles. He called
the phenomenon “animal electricity.”
Volta, though initially
galvanized by this work, argued that the frogs’ muscles were simply
reacting to the electricity, not producing it. He set out to prove
Galvani wrong, and sparked a controversy that divided the Italian
scientific community.
Volta realized that the crucial feature
of Galvani’s experiments was the two dissimilar metals–the iron or
brass hook and the probe of some other metal. The metals were
generating the current, not the frog parts. Instruments available at
the time could not detect weak currents, so Volta, always a dedicated
experimentalist, often tested various combinations of metals by placing
them on his tongue. The saliva in his mouth, like the frogs’ tissue,
conducted electricity, resulting in an unpleasant bitter sensation.
To
show conclusively that the generation of an electric current did not
require any animal parts, Volta put together a rather messy stack of
alternating zinc and silver discs, separated by brine-soaked cloth. He
built the pile, which consisted of as many as thirty disks, in
imitation of the electric organ of the torpedo fish.
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| A Voltaic Pile |
When
a wire was connected to both ends of the pile, a steady current flowed.
Volta found that different types of metal could change the amount of
current produced, and that he could increase the current by adding
disks to the stack.
In a letter dated March 20, 1800, addressed
to Joseph Banks, president of the Royal Society of London, Volta first
reported the electric pile.
Volta soon traveled to Paris and
demonstrated his invention, which he initially described as an
“artificial electric organ,” emphasizing that animal tissue was not
needed to produce the current.
The battery was a huge success.
Not only did it swing the scientific community to his side in the
debate with Galvani, it was immediately recognized as a useful device.
In 1800 William Nicholson and Anthony Carlisle used the current
generated by a battery to decompose water into hydrogen and oxygen. Sir
Humphry Davy also studied the same chemical effect. In the 1830s
Michael Faraday used a battery in his groundbreaking studies of
electromagnetism. Other inventors made improvements on Volta’s original
design, and soon it was powering telegraphs and doorbells.
Napoleon
was impressed by the voltaic pile as well, and recommended many honors
for Volta, including making him a count in 1810.
The invention
of the battery brought him great renown, but Volta seems to have
preferred a quiet life, and soon gave up most of his research and
teaching. He spent his last years living in a country house, where he
died on March 5, 1827, at age 82. Since his death, Volta’s portrait has
appeared on currency and stamps, and his name is immortalized in the
unit of electric potential, the volt.
