QUOTATIONS
"When
you can measure what you are speaking about and express it in numbers
you know something about it. But when you cannot measure it, when you
cannot express it in numbers, your knowledge is of a meagre and
unsatisfactory kind. It may be the beginning of knowledge but you have
scarcely in your thoughts advanced to the state of science."
: William Thomson, Lord Kelvin, 1824-1907.
Physicist
"Shall I refuse to eat my dinner because I do not fully understand the digestive processes ?"
: Oliver Heaviside.
O. Heavisde: A self-taught mathematician and physicist. Born 18th May
1850 in Camden Town, London, England. Died 3rd Feb 1925 in Torquay,
Devon, England.
The inventor of the controversial, revolutionary, Operational
Calculus which he used initially to analyse transients in electrical
circuits and transmission lines. Then applied to signal distortion and
its correction along telegraph and telephone cables: problems which
Lord Kelvin had encountered some 35 years earlier in the design and
operation of the first trans-Atlantic telegraph cables. Problems which
still arise today in digital networks. Heaviside's Calculus has now
been applied to all branches of engineering and scientific enquiry,
even to economics. It's modern name is the Laplace Transform Method,
Laplace being the renouned French mathematician, a small part of whose
work 100 years earlier was eventually found to provide the necessary
logical link between the Operational Calculus and the remainder of the
whole field of Mathematics.
(The name 'Operational' Calculus arose due to Heaviside's use of
symbols such as the letter "D" to signify the complex mathematical
operations of differentiation and integration. But what was
revolutionary was his use of these symbols as ordinary quantities and
variables obeying the normal rules of addition, multiplication,
division, square roots, etc., thus reducing the calculus to the
solution of simple algebraic equations. The meaning of Sqrt(D) is
beyond human comprehension. But if the right answers are the outcome
should engineers care?)
In 1902 Heaviside correctly predicted the existence of the ionosphere
consisting of electrical reflecting and refracting layers in the
Earth's extreme upper atmosphere caused by the ionising radiation from
the Sun via which world-wide short-wave radio communication was
eventually to become possible.
It was Heaviside who transformed Maxwell's little-understood
mathematical description of electromagnetic radiation into the greatly
simplified form now universally adopted in the World's text books but
still incorrectly attributed to Maxwell.
A recluse from his mid 20's to the end of his life, he survived long
enough to receive some recognition of his early work. A giant in the
world of applied mathematics and early communications engineering,
mostly unrecognised in his own time. It was American radio and line
transmission engineers early in the 20th century who recognised the
practical value and importance of Heaviside's beautiful mathematical
solutions to a wide class of hitherto insoluble problems:- the
transient response of complex electrical and mechanical systems to
varying loads, vibration and sudden shock.
"Patriotism is not enough."
: Nurse Edith Cavell, executed by firing squad, Belgium, 12th October, 1915.
"There's no such thing as Public Opinion - just a circulation of newspapers."
: George Bernard Shaw, before the advent of radio broadcasting.
Now there are equally dishonest TV news analysts.
"If you MUST set yourself up as an object lesson do so as a warning not as an example."
: George Bernard Shaw.
Playwrite and prefacist.
"For
50,000 years, ever since mankind invented the uses of fire, the wheel,
the steam engine and recently the microprocessor, he has been endlessly
striving to make himself 100 percent redundant. Now, when millions of
us have achieved success, why all the complaints about the high level
of unemployment?"
: Reginald James Edwards.
Radio Amateur G4FGQ and Iconoclast.
Index