Oliver Heaviside
was an introvert and a recluse, a strange and peculiar man whose shyness pushed
him to become a hermit. Mystery man lost in his thoughts.
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| Oliver Heaviside |
By the age
of 24, he was deaf due to childhood scarlet fever. At this time, he decided to
quit his employment at the telegraph company to engage in scientific research.
His seclusion made him contemplate more about his interest in mathematics,
physics, and electromagnetic theory.
The
youngest of four sons, Oliver Heaviside was born in May 1850 to Thomas and
Rachel [West] Heaviside. Ironically, his mother’s sister was married to Sir
Charles Wheatstone. Wheatstone, a Victorian scientist, is well known in the
engineering world for the development of the Wheatstone Bridge, a device used
to measure an unknown electrical resistance.
Oliver’s education
began at a girl’s school that was run by his mother. Oliver never went to a university;
instead he became a telegraph clerk for the Great Northern Telegraph Company
around 1866. In 1874, he retired from work due to his increasing hearing
problem and the compulsion to draw back more from society.
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| Heaviside's Home |
His parents
were shocked when he suddenly quit his job and moved into their house. Apparently,
he wanted to dedicate himself full time into research of mathematics and electricity.
In the next decade or so, he spent most of his time inside a small room at the
house - never becoming employed again.
It is said that he rarely came out of his room, and that his mother just
left food outside his door.
In his
“solitary confinement” he was able to conduct research that many mathematicians
of the day could not understand. Just like many scientist of the time, his
peers despised him. His work included working on problems in telegraph and signal
transmission by using mathematics and experimentation. He also worked on James
Clerk Maxwell's equations with regard to electromagnetic theory of light.
Due to his
solitude and odd idiosyncrasies, Heaviside always thought his work was correct,
backing it most of the time with mathematics.
Other scientist at the time did not understand his research and
therefore he did not care about their judgments on his work.
Heaviside
had many accomplishments in mathematics and electricity, but from a wireless
standpoint, his contribution in the early experimental days was farsighted. In 1902,
he predicted the presence of an ionized layer in the atmosphere that would reflect
radio signals back to earth. We know
this as “skip” where radio signals are reflected from an electrically charged
layer in the upper atmosphere. This layer is known as the Ionosphere, but is also
referred to as the “Heaviside Layer” in the wireless world. This layer resides
about 60 miles from the earth.
[Note: An American scientist, Arthur Edwin Kennelly,
independently and concurrently discovered the existence of the ionosphere layer.
For this reason the ionosphere layer is also referred to the Heaviside-Kennelly
Layer. The British scientist Edward Appleton confirmed this by experiment in
1924, receiving the 1947 Nobel Prize in Physics for it].
Marconi conducted
his first radio transmission across the Atlantic Ocean in 1901, refuting
critics who told him that the curvature of the earth would limit his transmissions
only to a couple hundred miles. This
first wireless message, the letter “S” in Morse Code [3-dots], was propagated more
than 2,000 miles from Poldhu, England to Newfoundland, Canada. This proved that at certain frequency bands,
signal propagation was not limited by the earth’s curvature, and that long
distance over the horizon transmission was possible.
When Heaviside
heard of Marconi’s transmission, he immediately had the explanation. At the time, Heaviside was one of a handful
of scientist, or perhaps the only scientist, that was able to explain the
mystery on how Marconi was able to transmit a signal over 2,000 miles.
Heaviside
likened his theory to waves travelling across the surface of the ocean. Radio
waves do not jump off the earth; but rather, the waves are pulled down and
continue across the ocean’s surface by the earth’s curvature. He hypothesized
that there was a conducting layer in the upper air. Thus, a radio signal would
be reflected back to earth from this layer.
The wave would then be reflected back to the upper atmospheric layer by
the ocean’s surface. He also indicated
that if there were land obstructions, the radio wave would partially go through
them.
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| Heaviside Layer - Signal Reflection |
In late
1924, Heaviside fell from a ladder and refused medical attention. A couple of months later, he was found
unconscious at home by friends and was taken to a nursing home by
ambulance. Apparently, the ambulance
ride was the first time in his life that he had ever been in a motor vehicle.
Within a few more weeks, Oliver Heaviside died in February 1925, and was buried
in a London cemetery next to his parents.
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| Three sacks of Heaviside papers |
Advanced in
his years, Oliver Heaviside’s mental powers diminished, and he stopped
publishing technical papers. He once stated, "I have become as stupid as
an owl". After his death, technical papers were found in his home –
apparently using them for insulation.
In 1957, Edward Appleton received a letter from a chemistry teacher who claimed he had several sacks of Heaviside papers in his garage. Those close to Heaviside knew the papers existed but
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| Sample of Heaviside research papers on playbill |
Heaviside
received much scientific recognition posthumously, as his work transformed radio
communications. Oliver Heaviside’s accomplishments are not very well
known to the general public today because of his seclusion, and for other
scientists stealing his work.
In July
2014, the Newcastle University [UK] began the Heaviside Memorial Project, which
was to fund the restoration of the Heaviside memorial.
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