INVENTION
|
INVENTOR
|
NATION
|
BACKGROUND
|
NOTES
|
Jet
Engine
|
Frank
Whittle
|
U.K.
|
His
father was a mechanic. Came from a working-class background. Became an RAF
Officer through merit.
|
The
Establishment would not take notice of his revolutionary thinking. It took
him 10-years to convince them. Created a new global industry.
|
First
Adhesive Glue
|
Not
known
|
U.K.
|
A
Patent was issued around 1750
|
Although
it is known that it existed, no record is available
|
Air
Brake
|
George
Westinghous-e
|
U.S.A.
|
His
father had small shops manufacturing agricultural machinery. Working-class
entrepreneurial background.
|
Self-educated
inventor who created one of the USA’s greatest electric
manufacturing companies.
.
|
Electric
Transformer
|
George
Westinghous-e
|
U.S.A.
|
|
He was
very inquisitive as a boy in anything electrical.
|
First
large system supplying electricity from one circuit for multiple end-uses
|
George
Westinghous-e
|
U.S.A.
|
|
|
Milking
Machine
|
Anna
Baldwin
|
U.S.A.
|
She
was a small working farmer
|
Created
a new global product.
|
Automotive
air bags
|
Allen
K. Breed
|
U.S.A.
|
He had
a working-class entrepreneurial background.
|
Built
from the grass-roots level an international company. Created a new global
product
|
Electro-mechanical
crash Sensor (EMS).
|
Allen
K. Breed
|
|
|
|
Modern
Air Conditioning
|
Willis
Haviland Carrier
|
U.S.A.
|
He had
a working-class entrepreneurial background.
|
Started
his working life on a salary of only US$10.00 per week.
Created
a new global industry.
|
Aeroplane/Aviation
|
Orville
& Wilbur Wright
|
U.S.A.
|
They
were owners of small bicycle business
|
They
were both self-trained mechanics. Created a whole new global industry
|
Tin
Can
|
Peter
Durand
|
U.K.
|
He was
a middle-class merchant selling commodities.
|
Revolutionised
food preservation and its transportation over an indefinite time. It was the birth of the modern packaging industry
|
Portland
Cement
|
Joseph
Aspdin
|
U.K.
|
He was
the eldest son of a bricklayer and a bricklayer himself.
|
He
called the cement Portland cement because it resembled Portland stone.
Created the basis of a new global industry.
|
Reinforced
concrete
|
Joseph
Monier
|
FRANCE
|
He was
a gardener who made garden pots and tubs of concrete reinforced with an iron
mesh. Besides his pots and tubs, he promoted reinforced concrete for use in
railway ties, pipes, floors, arches, and bridges.
|
Created
the basis of a new global industry.
|
Cates
Eyes
|
Percy
Shaw
|
U.K.
|
He was
a young road repairer from a working class family.
|
Greatly
advanced road safety at night throughout the world. Created a new global
product that has saved thousands of lives over the years.
|
Thermos
Flask
|
James
Dewar
|
U.K.
|
He was
the son of an innkeeper
|
The
majority of households in the developed world have bought one of these
several times over. Created a new global product.
|
Solidification
of liquid Hydrogen
|
James
Dewar
|
Scotland
|
He was
the youngest of six boys and was born and raised in Scotland. By the time he was
fifteen he had lost both parents, and went to live with his brother. He went
to Edinburgh University and after graduation stayed
on to work as a tutorial assistant.
|
Allows
bulk storage of a needed commodity and where its importance will
significantly increase in the 21st century and beyond. Basis of a
new global industry.
|
Electric
Motor
|
Michael
Faraday
|
U.K.
|
He
came from a poor family and was the son of a blacksmith. He started in
life as an errand boy for a London
bookbinder.
|
The
modern world could not function in many ways without the device. Faraday
through his work created a whole new technological industry.
|
Electromagnetic
Induction
|
Michael
Faraday
|
U.K.
|
|
His
discoveries are the basis of all modern electromagnetic technology. Therefore
Faraday is the ‘father’ of the electricity industry.
|
Generator
|
Michael
Faraday
|
U.K.
|
|
Allows
continuous source of electricity. Created the basis of a new global industry.
|
Transformer
|
Michael
Faraday
|
U.K.
|
|
Allows
the electric power to be increased and decreased at will. Created the basis
of a new global industry.
|
Dynamo
|
Michael
Faraday
|
U.K.
|
|
Producing
electricity at will. The modern world could not do without it. Created the
basis of a new global industry and possibly the greatest invention of all
time as all other inventions such as the WWW, could not exist without
Faraday's invention .
|
Electromagnet
|
William
Sturgeon
|
U.K.
|
He was
the son of a shoemaker, apprenticed into shoemaking and thereafter an
electrician by trade.
|
The
beginning of using electrical energy for making useful and controllable machines
and which laid the foundations for large-scale electronic communications.
I.e. telephone etc. Created the basis of a new global industry.
|
Gas
Mask/Breathing Mask
|
John
and Charles Deane
|
U.K.
|
They
were blacksmiths by trade.
|
Basis
of a new industry and underwater diving and Scuba diving.
|
Holography
|
Dennis
Gabor
|
Hungary
|
His
father was a mining engineer.
With
the rise of Hitler in 1933 he left Germany
and after a short period in Hungary
went to depression stricken England
and where finding a job as a foreigner was very difficult. Through
perseverance and over many years of hardship he eventually invented
holography and thereby a 21st century industry.
|
Basis
of a new global industry.
|
Internal Combustion Engine
|
Samuel
Brown
|
U.K.
|
He was
an engineer from a working class background.
|
He
adapted an old Newcomen steam engine to create the first engine to drive a
road vehicle. Pre-runner to the modern automobile.
|
Laws
of conservation and dissipation of energy
|
William
Thomson, Lord Kelvin
|
U.K.
|
His
father was the son of a farmer and he was more-or-less self-taught.
|
Father
of modern thermodynamics and created the basis of a multi-global industries.
|
Locomotive
|
Richard
Trevithick
|
U.K.
|
His
father was a mining manager with only a reasonable income. Therefore he had
to work for everything that he made in life and had no financial help other
than his own personal earnings.
|
He is
regarded as the ‘Father of railway engines’. Created the basis of a new
global industry.
|
Light
Bulb
|
Humphry
Davy
|
U.K.
|
His
father was a woodcarver by trade with little financial income.
|
Invented
the first electric light. Davy connected two wires to a battery and attached
a charcoal strip between the other ends of the wires. The charged carbon
glowed making the first arc lamp. Created the basis of a new global industry.
|
Penicillin
|
Alexander
Fleming
|
Scotland
|
His
father was a farmer living in a desolate area of Scotland and where Fleming had no
contact initially with science.
|
His
work created an industrial base for possibly the greatest selling medical
cure in history. Created the basis of a new global industry.
|
Polyester
|
John
Rex Whinfield and James Tennant Dickson
|
U.K.
|
They
were employees of a small regional company.
|
Basis
of a new global product.
|
Periodic
Table
|
John
Newlands
|
U.K.
|
His
father was a minister of the church and educated him at home. He did not have
any formal state school education. He worked initially for a time at an
agricultural college.
|
Had
the idea of arranging chemical elements in order of their relative atomic
masses and he arranged his elements in columns. The Basic building blocks of
the Universe and possibly the most important listings of all time.
|
Radar
|
Robert
Alexander Watson-Watt
|
U.K.
|
His
father was a carpenter by trade and where he learnt Watson-Watt to use his
hands and make things.
|
Invention
that revolutionised the aviation industry. Created the basis of multi-global
industries.
|
Rubber
Bands
|
Stephen
Perry
|
U.K.
|
He was
a working-class Entrepreneur.
|
A
product used worldwide in business and home. Created the basis of a new
global product.
|
Radio
Waves
|
James Clerk Maxwell
|
U.K.
|
His
father was a lawyer with no scientific background but where James Clerk
Maxwell developed an early interest in scientific investigation.
|
Predicted
the existence and from this connection sprang the
idea that light was an electric phenomenon. Established the clue for the
invention of the Radio.
|
Seismometer
|
James Forbes
|
U.K.
|
He was
a self-taught instrument maker.
|
Instrument
determining the magnitude of earthquakes.
|
Sewing
Machine
|
Thomas
Saint
|
U.K.
|
He was
a joiner & cabinet maker
|
Created
a new industrial machine that became the basis of a global industry.
|
Steel
Production – The Bessemer Process
|
Henry
Bessemer
|
U.K.
|
His
father was a typefounder. Bessemer
was an inventor working under his own initiative and intuition.
He
said of the reasons why he had made the breakthrough,
“I had
an immense advantage over many others dealing with the problem inasmuch as I
had no fixed ideas derived from long-
established practice to control and bias my mind, and did not suffer from the
general belief that whatever is, is right.”
|
Created
the means by which mass-production of steel could be done
inexpensively. This was the basis of a whole new global industry, created the
material which built the 20th century and what made Andrew
Carnegie the world’s richest person. Created the basis of a new global
industry.
|
Submarine
|
William
Borne
|
U.K.
|
He was
a former Royal Navy Gunner with no qualifications or background in ship
design whatsoever.
|
It
never got off the drawing board because no one would finance it.
|
The
three machines that Revolutionised the Textile Industry
1.
Spinning Jenny
2.
Spinning Frame
3.
Spinning Mule
|
James
Hargreaves
Richard
Arkwright
Samuel
Crompton
|
U.K.
U.K.
U.K.
|
He was
a carpenter and weaver by trade.
He was
the son of a tailor and trained as a barber. Had no education whatsoever and
was taught to read and write by his cousin.
He was
a musician by trade through which he raised enough money to invent things.
|
He had
no formal education and could not read or write.
The
world’s first industrialist and became one of the richest people in England
in his day.
The
machine allowed him to earn 4>5 times more money than just conventional
weaving.
|
TELEVISION
|
John
Logie Baird
|
Scotland
|
When
he was twelve he built his own telephone.
He was
an amateur radio-ham (he tinkered with radio equipment). Baird was 34 years
old when he started building his "Televisor" system. Working on a
shoestring budget, he built his first device using objects found in the attic
where he was experimenting. An old tea chest was used to support the electric
motor that turned the discs. The discs themselves were cut out of cardboard.
Other parts were mounted upon pieces of scrap lumber. His lens came from an
old bicycle lamp. Glue, sealing wax and wire held the device together.
|
One of
the greatest and most important inventions ever and the basis of one of the
world’s largest industries.
|
Nipkow
disk
(the
pre-runner invention to the Television)
|
Paul Nipkow
|
Germany
|
He
came from a middle-class family but had no great wealth.
|
He was
an engineering student when he proposed and patented the world's first
electromechanical television system.
|
Modern
televisions (Basis of electronic system)
|
Philo
Farnsworth
|
USA
|
He
came from a working-class agricultural family living on a small farm.
|
For
those inclined to think of our fading century as an era of the common man,
let it be noted that the inventor of one of the century's greatest machines
was a man called Philo Taylor Farnsworth. Even more, he was actually born in
a log cabin, rode to high school on horseback and, without benefit of a
university degree (indeed, at age 14), conceived the idea of electronic
television — the moment of inspiration coming, according to legend, while he
was tilling a potato field back and forth with a horse-drawn harrow and
realized that an electron beam could scan images the same way, line by line,
just as you read a book. He came up with his ideas whilst still a schoolboy
and by the age of 20 years demonstrated his invention.
|
Modern
Television (Person who launched the industry) – the 'kinescope,' a
cathode-ray tube.
|
Vladimir
Zworykin
|
Russia
|
He was
an apprentice boat ferry operator on his father’s boats across
the river Oka. He eagerly helped repair
electrical equipment, and it soon became apparent that he was more interested
in electricity than anything nautical.
|
He was
a Russian immigrant who went to the USA to create his dream – mass
television.
Zworykin's
'storage principle' is the basis of modern TV.
|
Cruise
Control in Cars
|
Ralph
Teetor
|
U.S.A.
|
He was
a blind mechanical engineer who was in the top three in his class at
university.
|
A
totally blind person from the age of five.
|
Alternating
Electric Current
|
Charles
Proteus Steinmetz
|
Polish
|
He
edited a student newspaper at university. After his groundbreaking invention.
He was in essence a genius as he devoured books on every subject from
mathematics and economics to literature and medicine Thomas Edison installed
Steinmetz as consultant and research chief at his new General Electric Company
in upstate New York.
|
Only
4’0” tall and deformed from birth but created the first commercially
successful alternating current motor for General Electric which gave GE a
world advantage which significantly built their industrial empire.
One of
his famous sayings was, "No man really becomes a fool until he stops
asking questions."
|
Telephone
Answering Machines
|
Valdemar
Poulsen
|
Denmark
|
He was
a simply a basic telephone engineer but with an inventive flare to create
things all on his own.
|
He
worked for a telephone company and invented the first answerphone in his
spare time.
|
Anticeptics
|
Ignaz
Philipp Semmelweis
|
Hungary
|
He was
a basic doctor working in a hospital but saw more than all others and
individually conceived the reasons to why so many people died in hospital.
|
When
he first suggested anticeptics he was ridiculed by his fellow hospital
doctors.
|
Apple
Computer – first single circuit board computer
|
Steve
Wozniak
|
U.S.A.
|
He
worked on calculators for Hewlett Packard who at the time were not
producing computers in any way.
|
His
hobby in his spare time created the famous Apple computer and started a
revolution in personal computers.
|
Manufacturing
assembly line
|
Eli
Olds
|
U.S.A.
|
He
started in a small way making steam and gasoline engines with his father.
|
Eventually
the company grew and he invented an assembly line for greater productivity.
|
Aspirin
|
Felix
Hoffmann
|
Germany
|
He was
a line-worker chemist employed by a chemical firm.
|
He
rediscovered an old formula through serendipity and told his employer about
it.
By
chance this single employee created possibly the biggest selling medicinal
pill in the world.
|
Automated
electrified monorail systems
|
Ronald
J. Riley
|
U.S.A.
|
In his
early days he tinkered with toys and electronic devices on the workbench in
his basement, and earned money by selling vegetables door to door.
|
Disillusioned
with the limited roles and rewards gained by inventors within large companies
(that he worked for) he became a self-employed inventor.
|
First
commercial automatic sliding door.
|
Lew
Hewitt and Dee Horton
|
U.S.A.
|
He
worked for a small glass repair company that was constantly re-fitting broken
glass to doors that had shattered due to high winds and the weather.
|
Literally
established a brand-new industry.
|
The
Pram (baby carriage)
|
William
Kent
|
U.K.
|
He was
an architect by profession and not a manufacturer or mechanical engineer.
|
He
designed the pram on his drawing board for one of his clients.
|
Bakelite
- the first plastic
|
Leo
Hendrik Baekeland
|
Belgium
|
He was
the son of a shoemaker and a maid. He became an assistant teaching professor
after receiving his PhD. He went to the USA on a scholarship decided to
stay there.
|
His
first invention ‘Velox’ netted him £1 million and allowed him to create
Bakelite, which in itself created a whole new industry.
|
Ball
point Pen
|
Laszlo
& Georg Biro
|
Hungary
|
They
were from a working-class family where Laszlo was a journalist and Georg was
a chemist.
|
The
brothers worked out and created a pen that would work in many situations
unlike the fountain pen. Created a new global product.
|
Rubber
Balloon
|
Michael
Faraday
|
UK
|
Initially
he was an apprentice bookbinder.
|
Only
rudimentary education up to the age of 14 to read and write and do simple
arithmetic.
|
Band
Aid for skin cuts
|
Earle
Dickson
|
USA
|
He was
a cotton buyer and not a chemist or medical practitioner.
|
He was
inspired to invent the band-aid by his wife, Josephine Dickson, who was
always cutting her fingers in the kitchen while preparing food.
|
Bar
Codes
|
Joseph
Woodland and Bernard Silver
|
USA
|
They
were both graduate students at a technology college.
|
Whilst
young and at college a local food store had asked about a method of reading
merchandise at the checkout. Silver picked this up and decided to do
something about it.
|
Internal
Combustion Engine - first effective gas motor engine - the first
practical four-stroke internal combustion engine
|
Nicolaus
Otto
|
Germany
|
He was
a travelling salesman selling tea, coffee, and sugar. He had no training in
mechanical engineering whatsoever.
|
He
developed an interest in the new technologies of the day and began
experimenting with building four-stroke engines. (As a travelling salesman he
chanced upon a newspaper account of the Lenoir internal combustion engine.
Before year's end, he had built an internal combustion engine, utilizing a
four-stroke piston cycle.)
|
Basketball
|
James
Naismith
|
U.S.A.
|
He was
a Canadian physical education instructor at the Y.M.C.A.
training school [Springfield
College
|
He
invented and started one of America’s
most popular sports that has become a multi-billion dollar industry.
|
Lightning Conductor
|
Benjamin
Franklin
|
U.S.A.
|
He had
little formal education. He was a printer by profession and not a scientist.
|
A
prolific inventor.
|
Bifocals
|
Benjamin
Franklin
|
|
|
He
made them for himself as he grew older so that he had not to keep changing
his glasses for near and far sight.
|
Gulf Stream
|
Benjamin
Franklin
|
|
He had
little education but had a natural ability for great intuition.
|
He
single-handedly determined that a conveyor system must be in operation in the
Ocean.
|
Blue
Jeans
|
Levi
Strauss
|
U.S.A.
|
He was
a Bavarian immigrant with little education. Sold rough canvas to use for
tents and wagon covers and developed denim through an idea from a miner.
|
He
started the world’s foremost jean company and a multi-billion company.
|
Calculating
Machine
Calculator - the first practical adding and listing machine.
|
William
Seward Burroughs
|
U.S.A.
|
He was
a bank clerk and not an engineer.
|
Working
in a bank inspired him with a vision of a mechanical device that would
relieve accountants and bookkeepers of the monotony of their tasks and ensure
that a smaller percentage of their time was spent correcting errors.
|
First
practical process of photography
|
Louis-Jacques-Mandé
Daguerre
|
France
|
He was
a scene painter for the opera, Daguerre and not a scientist.
|
He
developed a system to take the first permanent photograph.
|
Pacemaker
|
Wilson
Greatbatch
|
U.S.A.
|
He was
from a working-class family and in his early teens he built his own short
wave radio receiver. He became an electrical engineer after serving in
WW2..
|
He
accidentally installed a resistor into an oscillator to record heart sounds
with the wrong resistance, it began to give off a steady electrical pulse. He
realized that the small device could be used to regulate the human heart.
|
The
Modern computer
the Z3
- the world's first electronic, fully programmable digital computer (1941)
|
Konrad
Zuse
|
Germany
|
He was
a construction engineer for an aircraft company and not a scientist of
computer programmer.
|
He
invented the computer to help him with his lengthy engineering calculations.
It was the first freely programmable computer.
|
Modern
Beauty Cosmetics/make up
|
Max Faktor (Max Factor)
|
Poland
|
He
came from a poor Polish family where his father could not afford any
education for their ten children (Max being just one of them). Therefore he
had no formal education whatsoever but self-taught himself over time.
|
He was
apprenticed to a dentist and mixed basic dentistry potions for years. Started
selling hand-made rouges, creams, fragrances, and
wigs in Moscow.
A chance happening (serendipity) occurred when a travelling theatrical
troupe wore Factor’s make-up while performing for Russian nobility, and the
door to fame and fortune opened wide.
|
Ivory
Soap
|
An
unknown soap maker who made a mistake at work at Procter
and Gamble – He or she would not own up to it as it was thought that they
would be fired. Presumably whoever it was left the company before realising
what had been invented.
|
USA
|
Whoever
he or she was they invented the world’s first floating soap.
|
It
became one of Procter & Gamble’s most successful products ever.
|
Pine-Sol
cleaner
(the
biggest selling household cleaner in the world)
|
Harry
A. Cole
|
USA
|
He
started a small business in the depression years. He slowly but surely
supplied janitorial services that cleaned local banks.
|
He was
living in the midst of miles of pine forest, and used pine oil, a natural
disinfectant and deodorizer, to create a fresh smelling and highly effective
cleaning product. This product was developed for self use – like a great
number of inventions.
|
S.O.S
Soap Pads
For
cleaning pots & pans etc – Brillo Pads is a modern derivative
|
Ed Cox
|
USA
|
He was
an aluminium pot salesman and not a products engineer.
|
He
invented a pre-soaped pad with which to clean pots. Cox soon found out that
the S.O.S pads were a hotter product than selling his pots and pans.
|
Disposable
NAPPIES
|
Marion
Donovan
|
USA
|
She
was a young mother and housewife and not a product design engineer.
|
She
first invented the 'Boater', a plastic covering for cloth diapers. She made
her first Boater using a shower curtain. A year later she carried her ideas
further. Using disposable absorbent material and combining it with her Boater
design. She then created the first convenient disposable diaper.
Manufacturers thought her product would be too expensive to produce. She left
unable to sell or license her diaper patent, went into business for herself.
|
Diesel
Engine
|
Rudolf
Diesel
|
He was
born in France
into a poor Bavarian family who had immigrated.
|
Employed
as a refrigerator engineer. In 1893 he was on an average wage. 5-years later
in 1898 he was a millionaire (a huge sum 106 years ago) and got richer by the
year thereafter.
|
He was
motivated by the concept of sociological needs. Rudolf Diesel originally
conceived the diesel engine to enable independent craftsmen and artisans to
compete with large industry
|
Garbage
Disposer
|
John
W. Hammes
|
USA
|
He was
an architect by profession and not a design products engineer.
|
He
built his wife the world's first kitchen garbage disposer. After ten years of
design improvement he went into business selling his appliance to the public
and ceased working as an active architect.
|
Paper
Towels
|
Irvin
and Clarence Scott
|
USA
|
He had
operated a failed paper commission business.
|
Initially
his invention was developed for use in school classrooms to help prevent the
spread of the common cold from child to child.
|
Disposable
cellphone
(1999)
|
Randice-Lisa
Altschul
|
USA
|
She
was a female toy designer with no prior experience in electronics said she
developed the phone by surrounding herself with experts who shared her
''conceive-it, believe-it, achieve-it'' attitude.
|
She
and colleagues have also created a paper laptop computer, which will sell for
twenty dollars and serve as an internet access device. The STTTM technology
has opened up the potential for creating countless new electronic products
and countless cheaper versions of pre-existing products. If STTTM is all that
it seems to be, this technology should be considered a milestone in
electronic innovation.
|
Soft
drink "Dr Pepper
|
Charles
Alderton
|
USA
|
He was
a young pharmacist at the time of his invention and not a soft drinks
manufacturer.
|
He
invented his own recipes for soft drinks and found one of his drinks was
becoming very popular. This was the basis of the Dr Pepper Company which is
the oldest major manufacturer of soft drink concentrates and syrups in the United States.
|
Dynamite
|
Alfred
Nobel
|
Sweden
|
He was
born in the year his father was made bankrupt. Unfortunately his father was
made bankrupt a further time and his mother kept the family going by opening
a small grocer’s shop. He collaborated with others to create dynamite and
built the basis of dynamite by putting several pieces of knowledge together.
Basically just like how the structure of DNA was determined. Nobel therefore
had to go through bad periods in his life and where only through intuition
and hard work was able to overcome these major handicaps in later life.
|
He was
forcibly made to move his experimentation to a barge anchored on Lake Mälaren.
He was not discouraged and in 1864 he was able to start mass production of
nitro-glycerine. Major companies founded by Nobel include Imperial Chemical
Industries (ICI), Great Britain;
Société Centrale de Dynamite,
France; and
Dyno Industries
|
Earmuffs
|
Chester Greenwood
|
USA
|
He was
a school dropout who made his invention at the age of 15 years.
|
He
made a fortune supplying Ear Protectors to U.S. soldiers during World War I.
He went on to patent more many other inventions. In 1977, Maine’s
legislature declared December 21 "Chester
Greenwood
Day" to honour a native son and his contribution to cold weather
protection. He accumulated over 100 patents in his lifetime and the
Smithsonian Institution has named him one of America's 15 outstanding
inventors.
|
Ear
plugs
|
Ray
Benner
|
USA
|
He was
a classical musician by profession and not a product design engineer.
|
The
Benner’s designed a new ear plug made from silicone, a waterproof material,
to help prevent swimmer's ear, an infection of the ear caused by exposure to
water. Also their Pillow Soft Earplugs were great noise stoppers.
Created a new industry.
|
Lear
Jet executive airplane
|
William
Lear
|
USA
|
He was
only educated to 14 years of age. He learned his trade/knowledge when he
joined the US Navy.
|
He had
many critics who should realize that the vision that earned him sneers is the
same vision that helped him transform the automotive, aviation and audio
industries. If global technology has not advanced as quickly as Lear thought
it would, it was through no fault of his own someone once said.
|
8-track
stereo
|
William
Lear
|
USA
|
|
|
First Heart Pacemaker (Externally fitted)
|
John
Hopps
|
Canada
|
He was
trained as an electrical engineer but later joined the National Research
Council of Canada.
|
He
conducted research on hypothermia. While experimenting with radio frequency
heating to restore body temperature, Hopps made an unexpected discovery: if a
heart stopped beating due to cooling, it could be started again by artificial
stimulation using mechanical or electric means.
|
Heart
Pacemaker (Internally fitted)
|
Wilson
Greatbatch
|
USA
|
He was
an electrical engineer who began working in medical research.
|
One
afternoon in the late 1950s, he was inspired by a mistake to invent one of
the most significant medical devices of all time: the implantable cardiac
pacemaker. He was building an oscillator to record heart sounds. When he
accidentally installed a resistor with the wrong resistance into the unit, it
began to give off a steady electrical pulse. He realized that the small
device could be used to regulate the human heart. After two years of
refinements, he had hand-crafted the world's first successful implantable
pacemaker (patent #3,057,356). Until that time, the apparatus used to
regulate heartbeat was the size of a television set, and painful to use.
|
corrosion-free
lithium battery
|
Wilson
Greatbatch
|
|
|
His
pacemakers and batteries have improved and saved the lives of millions of
persons worldwide. In 1985 the US National Society of Professional Engineers
named his invention one of the ten greatest engineering contributions to
society of the last 50 years.
|
Rubber
Industry
|
Thomas
Hancock
|
Scotland
|
He was
a coach builder by profession. Turned his attentions on rubber and what new
products could be created from rubber. He later trained as an industrial
chemist.
|
The
need for waterproof clothing for stage coach passengers may have been at the
back of his mind, but whatever it was by 1819 he was working on rubber
solutions to apply to fabrics for making gloves, stockings and other
garments.
Known
now as the ‘Father of the Rubber Industry’.
|
Masticator
|
Thomas
Hancock
|
Scotland
|
|
He
revolutionised the rubber industry and moved it forward.
|
Lift
(first safe lift that enabled skyscrapers to be built – without them
skyscrapers were commercially of low value and low interest foe developers
and occupants)
|
Elisha
Otis
|
USA
|
He was
born on a farm near Halifax,
Vermont, the youngest of six
children, he made several attempts at establishing businesses in his early
years. However, chronically poor health led to continual financial woes.
|
He
worked as a master mechanic in the bedstead factory of O. Tingley &
Company. He remained about three years and during that time invented and put
into use a railway safety brake, which could be controlled by the engineer,
and ingenious devices to run rails for four-poster beds and to improve the
operation of turbine wheels.
By 1852 he had moved to Yonkers,
New York, to organize and
install machinery for the bedstead firm of Maize & Burns, which was
expanding. Josiah Maize needed a hoist to lift heavy equipment to the upper
floor. Although hoists were not new, Otis' inventive nature had been piqued
because of the equipment's safety problem.
If one could just devise a machine that wouldn't fall.... He hit upon the
answer, a tough, steel wagon spring meshing with a ratchet. If the rope gave
way, the spring would catch and hold.
In 1854 Otis dramatized his safety device on the floor of the Crystal Palace
Exposition in New York.
With a large audience on hand, the inventor ascended in an elevator cradled
in an open-sided shaft. Halfway up, he had the hoisting cable cut with an
axe. The platform held fast and the elevator industry was on its way. His
brakes made skyscrapers a practical reality.
|
Electrogasdynamics
- EGD (turning gas into energy)
|
Meredith
Gourdine
|
USA
|
Has
was brought up in Brooklyn & Harlem in a poor family.
|
Applications
of EGD include refrigeration, desalination of sea water, and reducing the
pollutants in smoke. He built a multi-million dollar corporation based on his
ideas in the field of electrogasdynamics. He was responsible for the
engineering technique termed Incineraid for aiding in the removal of smoke
from buildings. His work on gas dispersion developed techniques for
dispersing fog from airport runways. Meredith Gourdine also created a
generator that allowed for the cheaper transmission of electricity. Created
the basis of a whole new technological industry.
|
Xerography
(photocopying)
|
Chester Carlson
|
USA
|
He was
a young law student when he devised the basis of modern photocopying.
|
He had
been frustrated with the slow mimeograph machine and the cost of photography
and that lead him to inventing a new way of copying. He invented an
electrostatic process that reproduced words on a page in just minutes.
He had
a hard time finding investors in his new invention and was turned down by IBM
and the U.S. Army Signal Corps. It took him eight years to find an investor,
the Haloid Company which later became the Xerox Corporation.
|
Electroscope
|
Jean
Antoine Nollet
|
France
|
He was
initially a clergyman and later a physicist.
|
The
Electroscope was the first instrument to detected the presence of electric
charge by using electrostatic attraction and repulsion.
|
E-Mail
|
Ray
Tomlinson
|
USA
|
He was
a computer engineer for Bolt Beranek and Newman (BBN), the company hired by
the United States Defence Department to build the first Internet in 1968.
|
He
used a file transfer protocol that he was working on called CYPNET to adapt
the SNDMSG program so it could send electronic messages to any computer on
the ARPANET network.
He
chose the @ symbol to tell which user was "at" what computer. The @
goes in between the user's login name and the name of his/her host computer.
He created one of the biggest Communications phenomena almost by
accident - e-mail.
In 1971 he was tinkering with a programme that allowed staff at ARPANET to
leave messages for each other. He'd been working on an experimental computer
program called CYPNET that transferred files between linked computers, and
thought it would be a neat idea if you could transfer messages as well as
files.
He chose the '@' symbol to mark the difference between a message that needed
to go to a mailbox on the local computer and one that was headed out onto the
network.
Typically, he told his colleagues about it via the mail system and it caught
on like wildfire - although it took about five years before his
employer realised what a hot property they had.
He continues to work in software to this day. He said later that at the time
he even didn't know he was creating something important.
|
First
applied ‘Steam Engine’ of note
|
Thomas
Savery
|
UK
|
He was
a military engineer working on mine problems.
|
He
designed it on Denis Papin's Digester or pressure cooker.
|
First
Atmospheric steam engine (an improvement on Thomas Savery’s invention)
|
Thomas
Newcomen
|
UK
|
He was
a blacksmith who eventually worked together with Thomas Savery.
|
The
Newcomen engine was the predecessor to the Watt engine and it was one of the
most interesting pieces of technology developed during the 1700's. Although
his pioneering work was highly important to the Industrial Revolution his
position in life was humble, and he was not looked upon as an individual of
even possible importance in the community.
|
Watt's
engine
|
James
Watt
|
UK
|
He was
a university helper/researcher/ instrument maker working on improvements to
Newcomen’s engine. He came from a working-class family background
|
Watt's
engine became the dominant design for all modern steam engines and helped
bring about the Industrial Revolution. A unit of power called the
Watt was named after James Watt. Without Watt’s input the full
industrialisation of Britain
could not have happened as the efficient engines to do this would not have
been there.
|
Escalator
|
Jesse
Reno
|
USA
|
His
father was an officer in the US
army and where his upbringing was predominantly of a military situation. This
did not bring him into contact with many things outside the military but he
had an intense interest in mechanical moving things.
|
He
formulated his idea for an inclined moving stairway at age 16. It first began
as an amusement. He created a new novelty ride at Coney
Island, a moving stairway that elevated passengers on a conveyor
belt at a 25 degree angle.
|
Ethernet
(connecting computers within a building using hardware running from machine
to machine)
|
Robert
Metcalfe
|
USA
|
He
came from a working-class family and was fascinated by technology and gadgets
as a child. He became a member of the research staff at Xerox and was given
the project to solve the interconnecting problem between computers as the
company was introducing laser printers.
|
He
later developed a computer industry standard - LAN protocol.
|
First
modern filters to polarize light
|
Edwin
Herbert Land
|
USA
|
He
came from a working-class family. As a youth he chose not to be stifled.
Entering Harvard
University in
1926 he left after only a few months to pursue his first great invention,
plastic sheet polarizers. He was a college dropout twice but saw full well
the power of science and gave an anonymous multi-million dollar sum for the Harvard Science Center--to
give undergraduate science more weight in a research-oriented university.
|
When
asked why he dropped out of college he said in a speech at MIT, that he
had protested against a process that stifled students' drive to "greatness,"
that is, originality. He said that students had to wait too long to meet the
first-rate minds, when they needed to begin direct research at once.
|
Polaroid
photography & the creation of the Polaroid Corporation
|
Edwin
Herbert Land
|
USA
|
He was
inspired by his three year old daughter, who had asked him why she couldn't
see a photo he had taken of her right away. He thereafter created a system of
one-step photography.
Throughout
his lifetime he held over 500 patents and ranks second only to the world’s most
prolific inventor Thomas Edison in patent awarded prowess.
|
He
founded a company that plunged himself into years of technical agony, mostly
in grimy buildings. He learned to make reliable, cheap polarizers and sell
them for camera filters and sunglasses, and persuaded investors of the huge
potential market for polarizers to control headlight glare and view 3-D
movies. With financing from James P. Warburg and other Wall Street
leaders, the enterprise Polaroid Corporation was created.
|
Kevlar
|
Stephanie
Kwolek
|
USA
|
Her
father died when she was 10-years old. She was therefore brought up by her
mother who was first a homemaker and then by necessity a career woman. She
inherited a love of fabrics and sewing through her mother. At one time she
thought she might become a fashion designer, but her mother warned her that
she would probably starve in that business because she was such a
perfectionist. Later she became interested in teaching and then in chemistry
and medicine.
|
Kevlar
is five times stronger than the same weight of steel. She patented Kwolek
that does not rust nor corrode and is extremely lightweight. Many police
officers owe their lives to her, for Kevlar is the material used in bullet
proof vests. Other applications of the compound include underwater cables
(fibre optics), brake linings, space vehicles, boats, parachutes, skis, and
building materials. She obtained 28 patents for new products and where she is
truly a modern day alchemist.
|
Rayon
|
Georges
Audemars
|
Switzerland
|
He was
an amateur inventor and chemist working alone.
|
He
invented the first crude artificial silk by dipping a needle into liquid
mulberry bark pulp and gummy rubber to make threads.
Rayon
became a new industry that spanned the world.
|
Velcro
|
George
de Mestral
|
Switzerland
|
He was
an amateur-mountaineer and inventor.
His
idea met with resistance and even laughter, but the inventor 'stuck' by his
invention. Together with a weaver from a textile plant in France, he perfected his hook and
loop fastener. By trial and error, he realized that nylon when sewn under
infrared light, formed tough hooks for the burr side of the fastener. This
finished the design, patented in 1955. The inventor formed Velcro Industries
to manufacture his invention. He was selling over sixty million yards of
Velcro per year. Today it is a multi-million dollar industry spaning the
globe.
|
On one
lovely summer day he decided to take his dog for a nature hike. The man and
his faithful companion both returned home covered with burrs, the plant
seed-sacs that cling to animal fur in order to travel to fertile new planting
grounds. With burning curiosity he ran to his microscope and inspected one of
the many burrs stuck to his pants. He saw all the small hooks that enabled
the seed-bearing burr to cling so viciously to the tiny loops in the fabric
of his pants. He raised his head from the microscope and smiled thinking,
"I will design a unique, two-sided fastener, one side with stiff hooks
like the burrs and the other side with soft loops like the fabric of my
pants. I will call my invention 'velcro' a combination of the word velour and
crochet. It will rival the zipper in its ability to fasten", he later
told people.
|
Sewing
machine
|
Elias
Howe
|
USA
|
After
he lost his factory job he found work in a machinist's shop. It was at that point
that he began tinkering with the idea of inventing a mechanical sewing
machine. Eventually his hobby made him one of the USA’s richest people.
|
Eight
years after starting his invention he demonstrated his machine to the public.
At 250 stitches a minute, his lockstitch mechanism outstitched the output of
five hand sewers with a reputation for speed.
For
the next nine years he struggled, first to enlist interest in his machine,
then to protect his patent from imitators.
|
Modern
‘Zipper’ for textile clothing
|
Gideon
Sundback
|
Sweden
|
He was
a working-class electrical engineer who was hired to work for a Fastener
Company. He was not therefore a maker of zips but someone who kept electrical
equipment working. He was an amateur inventor in his spare time.
|
When
his wife died the grieving husband busied himself at the design table and
designed the modern zipper. Another global industry was born by an
independent inventor.
|
Fax
Machine
|
Alexander
Bain
|
Scotland
|
He was
an amateur clock maker.
|
He
received a British patent for “improvements in producing and regulating
electric currents and improvements in timepieces and in electric printing and
signal telegraphs.” (Seven years earlier, the telegraph had been invented and
the fax machine evolved from the telegraph technology.)
He had
created a fax machine transmitter that was designed to scan a flat surface
(made of metal) using a stylus mounted on a pendulum and the stylus picked up
the images on the surface. He adapted parts from clock mechanisms combined
with telegraph technology to invent the fax machine.
|
Fibre
Optics
|
Sam
DiVita
|
USA
|
He was
the Manager of Materials Research at one of the US Army Signal Corps Labs. It
was his personal thinking that glass fibre and light signals might work.
|
With
the help of an outside glass works to produce high purity SiO2 for a glass
fibre to transmit light he announced to the world that fibre optics had been
successfully created. Thereby seeding the industry and making what is today’s
multi-billion dollar industry and made copper wire in communications a
reality.
|
Photography
(first
ever practical process of)
|
Louis-Jacques-Mandé
Daguerre
|
France
|
He was
a professional scene painter for the opera house in Paris.
|
He
formed a partnership with Joseph Nicéphore Niépce to improve the process
Niépce had developed to take the first permanent photograph.
After
several years of experimentation, Daguerre developed a more convenient and
effective method of photography, naming it after himself -- the
daguerreotype. He sold the rights for the daguerreotype to the French
government and published a booklet describing the process. (The daguerreotype
gained popularity quickly; there were over seventy daguerreotype studios in New York City, USA alone.)
|
Modern
Lie Detector/Polygraph
|
John
Larson
|
USA
|
He was
a University of
California medical
student when he invented the modern lie detector (polygraph) used in police
interrogation and investigations.
|
The
device measures heartbeats and breathing to learn if a person is lying or
not. It later included a skin monitoring system to tell if a person is
sweating. If a person was sweating and their breathing and pulse became
higher, an alarm would sound concluding that the person was lying. (i.e. The
theory is that when a person lies, the lying causes a certain amount of
stress that produces changes in several involuntary physiological reactions.
|
Liquid-Fueled
Rocket
(modern
space travel)
|
Robert Hutchings Goddard
|
USA
|
He was
intrigued with pyrotechnics from childhood.
|
He was
totally ridiculed by newspapers and his own science fraternity when he first
espoused his thinking on rockets and space travel.
But
through perseverance and knowing that he was right, he eventually showed the
world that rocket travel was possible – he is given the title of the ‘father
of modern rocket propulsion’ and where now it is a multi-billion global
industry.
|
World
Wide Web
|
Tim Berners-Lee
|
United Kingdom
|
He
worked in a sawmill for extra cash during his studies at university. He
was a software engineer doing a six-month stint at CERN, the European
Laboratory for Particle Physics, in Geneva.
CERN did not ask Berners-Lee to invent the www nor did they invent it as some
people have comprehended.. He was in his spare time doodling around with a
way to organize his far-flung notes. He had always been interested in
programs that dealt with information in a "brain-like way" but that
could improve upon that occasionally memory-constrained organ. So he devised
a piece of software that could, as he put it, keep "track of all the
random associations one comes across in real life and brains are supposed to
be so good at remembering but sometimes mine wouldn't." He called it
Enquire, short for Enquire Within Upon Everything, a Victorian-era
encyclopedia he remembered from childhood. He continued and in his own time
eventually created the WWW.
Therefore
Berners-Lee could have been working for anyone at the time when he invented
the www and it was only by sheer chance that he was temporarily employed by
the CERN at the time but where CERN played no physical part in the invention.
|
Unlike
so many of the inventions that have moved the world, this one truly was the
work of one man. Thomas Edison got credit for the light bulb, but he had
dozens of people in his lab working on it. William Shockley may have fathered
the transistor, but two of his research scientists actually built it. And if
there ever was a thing that was made by committee, the Internet — with its
protocols and packet switching — is it. But the World Wide Web is
Berners-Lee's alone. He designed it. He personally let it loose on the world.
And he more than anyone else has fought to keep it open, non-proprietary and
free. If he had kept it for himself he would have been the richest person
ever.
|
Automobile
(mass production)
|
Henry
Ford
|
USA
|
He was
born into a working class family on a country farm and educated in district
schools. After leaving school with a basic education only he became a
machinist's apprentice.
|
Most
people credit him with inventing the automobile. The fact is he didn't. He
did, however, introduce standardized interchangeable parts and assembly-line
techniques in his plant. Which allowed for mass production of automobiles.
|
Traffic
Light (Modern control lights that first used yellow, the third light)
|
William
Potts
|
USA
|
He was
simply a Police officer and not a design engineer.
|
He
used red, amber and green lights and thirty-seven dollars worth of wire to
form this light, which was put on the corner of Woodward and Michigan Avenues
in Detroit.
Around the same time, African- American Garrett Morgan invented the automated
traffic light which worked basically the same way the railroad lights work
today. This was the concept on which four way traffic lights are built.
|
Bread
Slicer
|
Frederick
Rowedder
|
USA
|
He was
a mechanic by trade.
|
He
worked on his idea of a bread slicer and finally completed a machine that
could successfully cut and wrap a loaf of bread. This machine was later
improved by baker Gustav Papendick.
|
Fire
Extinguisher
|
Alanson
Crane
|
USA
|
He was
an amateur inventor.
|
He
created an instant success and the basis of a global industry.
|
Electric
light
|
Thomas
Edison
|
USA
|
He was
a bell boy on the emerging US
railway system with little education.
|
One of
his many inventions that changed the world and created the basis of the
largest company in the world, General Electric.
|
Flying
Shuttle (textiles)
|
John
Kay
|
UK
|
He was
the twelfth child of a farmer with little education but had a inquisitive and
enquiring mind.
|
It
enabled weavers to weave faster and it paved the way for mechanical power
looms that revolutionised mass textile manufacture.
|
First
practical fountain pen
|
Lewis Waterman
|
USA
|
He was an insurance broker with no previous knowledge of pen
making.
|
He was getting ready to sign one of his biggest hottest
contracts ever. In honour of the occasion he bought a new fountain pen that
he considered far more stylish than a cumbersome dip pen and ink well. With
the contract on the table and the pen in the client’s hand, the pen refused
to write, and actually leaked onto the precious document. Horrified he raced
back to his office for another contract, but a competing broker had closed
the deal when he got back.
Determined to never again suffer such humiliation he began to
make fountain pens in his brother’s workshop. He used the capillarity
principle which allowed air to induce a steady and even flow of ink. From
thereon he started the Waterman empire.
|
Ballpoint
pen
|
Laszlo
Biro
|
Hungary
|
He was
a journalist by profession
|
He had
noticed that the type of ink used in newspaper printing dried quickly, leaving
the paper dry and smudge-free. He decided to create a pen using the same type
of ink. The thicker ink would not flow from a regular pen nib and he had to
devise a new type of point. He did so by fitting his pen with a tiny ball
bearing in its tip. As the pen moved along the paper, the ball rotated
picking up ink from the ink cartridge and leaving it on the paper. Now there
are billions sold every year.
|
Machine
for cutting and heading nails in one operation
|
Jacob
Perkins
|
USA
|
Started
out in life as an apprentice goldsmith with no training in mechanical
matters.
|
Started
the mass production of nails and a new global industry.
|
Bathometer
(measures the depth of water)
|
Jacob
Perkins
|
|
|
Created
a new niche industry.
|
Pleometer
(measures the speed at which a vessel moves through the water).
|
Jacob
Perkins
|
|
|
Created
a new niche industry.
|
Radiator
(for use with hot water central heating)
|
Jacob
Perkins
|
|
|
Created
the basis of central heating and a new global industry.
|
Process
for transferring engravings from one steel plate to another
|
Jacob
Perkins
|
|
|
Invented
the process due to increased workload.
|
First
practical refrigerating machine - Fridge
|
Jacob
Perkins
|
|
|
Started
the modern refrigeration industry with his basic fridge. Now millions of
fridges are sold every year.
|
Flash-freeze
foods (and deliver them to the public)
|
Clarence Birdseye
|
USA
|
He was
a taxidermist by trade.
Later after he had sold his invention and patent he turned his
attention to other interests and invented an infrared heat lamp, a spotlight
for store window displays, a harpoon for marking whales. He then established
companies to market these products.
|
He wished his family could have fresh food all year. After
observing the people of the Arctic preserving fresh fish and meat in barrels
of sea water quickly frozen by the arctic temperatures, he concluded that it
was the rapid freezing in the extremely low temperatures that made food
retain freshness when thawed and cooked months later. With an investment of
$7 for an electric fan, buckets of brine, and cakes of ice he invented and
later perfected a system of packing fresh food into waxed cardboard boxes and
flash-freezing under high pressure. Goldman-Sachs and the General Foods
Corporation bought his patents and trademarks in 1929 for $22 million.
|
Fuel Cells
|
William
Robert Grove
|
UK
|
He was
a Welsh judge amateur inventor
|
He
mixed hydrogen and oxygen in the presence of an electrolyte, and produced
electricity and water. The invention, which later became known as a fuel
cell, didn't produce enough electricity to be useful at the time.
|
Green
plastic garbage bag
|
Harry
Wasylyk
|
Canada
|
Was an
inventor by profession.
|
|
Electric
light bulb (first to patent the idea)
|
Henry
Woodward & Mathew Evans
|
Canada
|
Woodward
was a medical student at the time & Evans was a hotel owner.
|
Patented
the first incandescent lamp with an electric light bulb. They understood that
carbon was a conductor and made light inside a bulb by sending electricity
through a filament made of carbon. They did not have enough money to develop
their invention for people to use and sold a share of their patent to Thomas
Edison who was also struggling with his own light bulb experiment.
|
Process
to convert oil to gasoline.
|
William
Meriam Burton
|
USA
|
He was
a chemist working for Standard Oil.
|
His
process was the breakthrough that the automobile industry required and a
major factor in making John Davison Rockefeller the richest person in the
world ever and the head of the world’s largest company at the time.(in
comparative terms Rockefeller at his height was over four times richer that
Bill Gates of Microsoft – who remarkably through his mother has his ancestry
also from Scotland).
|
United
States Steel Corporation
|
Andrew
Carnegie
|
Scotland
|
He
started out in life in a textile mill as a bobbin boy at the age of 14 years
and after that as a telegraphic messenger (very similar background to that of
Thomas Edison who was a railway bell-boy and who eventually formed the basis
of General Electric , the world’s largest company)
|
By
anticipating that oil and steel would be in great demand he decided to set up
his first steel plant with his savings and a bank loan. After building up the
United States Steel Corporation and selling to the US government he became the
richest person in the world at the time.
|
Standard
Oil Company
|
John
Davison Rockefeller
|
USA (but his mother’s family came from Scotland)
|
He
came from a normal working family where his father was a roaming healer who
charged US$25 for a so-called cure for Cancer. At the age of 16 he began
looking for work in Cleveland
as a bookkeeper or clerk. Business was bad in Cleveland at the time and he had problems
finding a job. He was always neatly dressed in a dark suit and black tie. Cleveland was not a
large city at the time and he could easily visit every business in under a
week’s time. He returned to many businesses three times. Finally he got a job
as an assistant bookkeeper with Hewitt & Tuttle, commission merchants and
produce shippers.
|
Her
founded the Standard Oil company with just US$900.
|
Geobond
(a fire resistant building material)
|
Patricia
Billings
|
USA
|
She
was a sculpture artist who developed a durable additive to prevent her
painstaking plaster works from accidentally falling and shattering.
Currently
Geobond is being sold in more than 20 markets worldwide, and Patricia
Billings, great grandmother, artist, inventor remains at the helm of her
carefully constructed business empire.
|
After
nearly two decades of basement experiments, the result of her efforts was a
solution which when added to a mixture of gypsum and concrete, creates an
amazingly fire resistant, indestructible plaster trademarked Geobond. Not
only can Geobond add longevity to artistic works of plastic, but also it is
steadily being embraced by the construction industry as an almost universal
building material. Geobond is made with non-toxic ingredients which makes it
the ideal replacement for asbestos. She had indirectly invented one of the
most revolutionary---and potentially profitable---substances in the history
of the modern construction industry: a building material that is both
indestructible and fireproof. A new global industry by sheer chance and
unintentional.
|
Geodesic dome
|
Richard
Buckminster Fuller
|
|
Started
out in life as an apprentice machine fitter.
He was
prior to his great work jobless and broke with a wife and newborn daughter to
support. His first daughter had died four years previous and Buckminster
Fuller was still living in mourning. He had attempted suicide and was
drinking heavily. In the darkness of that year, Buckminster Fuller went
through a spiritual rebirth that changed the course of his life. He decided
to dedicate his life to finding out how much difference one man could make in
the world.
|
He
coined the word 'Dymaxion', a contraction of the
words 'dynamic', 'maximum' and 'ion' that represented resource-efficient and
self-sustaining technologies. Under the Dymaxion ideal, he developed a series
of inventions from lightweight homes, streamlined cars to the geodesic dome.
The geodesic dome combines the sphere, the most efficient
container of volume per square foot, with the tetrahedron, which provides the
greatest strength for the least volume of weight.
The geodesic dome can withstand winds of 210 mph, while at the
same time it is light and easily transportable.
Quick to build, a geodesic dome can be put up in hours. A geodesic dome can
withstand hurricanes and earthquakes far better than conventional buildings.
The geodesic dome is the only structure that actually gets
stronger, lighter in density and cheaper per square foot with size.
Over 200,000 of such geodesic domes have been built.
People use geodesic domes as homes and shelter from pole to
pole.
|
Carbon
microphone transmitter (basis of modern telephone)
|
Emile
Berliner
|
Germany/USA
|
Initially
he worked as an assistant in a chemistry lab, and sold dry goods to support
himself. Within six years, he had re-invented the telephone and invented the
gramophone, making both suitable for mass production.
|
He
sold the rights to Bell Telephone Company, which only then was able to mass
market the device. Created a whole new global industry.
|
Record
(for mapping sound)
|
Emile
Berliner
|
|
|
He
developed a method for mapping out sounds in a spiralling, wavering groove
etched into a flat disk (first of glass, then of zinc, then of plastic); the
sounds were "read" by a needle, which transmitted the pattern of
vibrations to a diaphragm, which then reproduced the original sounds. Her
sold the rights to the Record Company of America ( RCA), thereby providing
them their first major product.
|
Grocery
Bag
|
Margaret
Knight
|
USA
|
When
she was just 12 years old, she had an idea for a stop-motion device that
could be used in textile mills to shut down machinery, preventing workers
from being injured. Was an employee in a paper bag factory but was a born
inventor who obtained throughout her life 26 patents for her varied inventions
from internal combustion engines to window frame and sash and machinery for
cutting shoe soles.
|
She
invented a new machine part that would automatically fold and glue paper bags
to create square bottoms for paper bags. Paper bags had been more like
envelopes before. Workmen reportedly refused her advice when first installing
the equipment because they mistakenly thought, "what does a woman know
about machines?" She can be considered the mother of the grocery bag and
where she founded the Eastern Paper Bag Company.
|
Rotary
Engine
|
Margaret
Knight
|
|
|
|
Dress
and skirt shield
|
Margaret
Knight
|
|
|
|
Clasp
for robes
|
Margaret
Knight
|
|
|
|
Numbering
machine
|
Margaret
Knight
|
|
|
|
Window
frame and sash
|
Margaret
Knight
|
|
|
|
bubble
gum
|
Walter
E. Diemer
|
USA
|
He was
an accountant at a chewing gum company.
|
In his
spare time at work he was playing around with new gum recipes. By accident
one of his brew was unexpectedly, crucially different. It was less sticky
than regular chewing gum and also stretched more easily. At 23 years of age
he saw the bubbles first hand as well as the possibilities. The company that
he worked for developed the new product and formed a new global market.
|
Hallmark
Card Company
|
Joyce
C. Hall
|
USA
|
He was
a high school dropout. He started out in life as a picture-postcard peddler.
|
He
overcame both poverty and a lack of a formal education to become the
architect of an industry. He once said, "If a man goes into business
with only the idea of making a lot of money, chances are he won't. But
if he puts service and quality first, the money will take care of
itself. Producing a first-class product that meets a real need is a much
stronger motivation for success than getting rich."
|
Fluorescent
tube (forerunner)
|
Heinrich
Geissler
|
Germany
|
He was
a glassblower who privately experimented.
|
He
placed gas in a tube under a low pressure and applied an electrical voltage.
The result was that the gas glowed.
|
Hydraulic
Jack
|
Richard
Dudgeon
|
USA
|
He was
a machinist and constant tinkerer who created through his thinking the world’s
largest manufacturers of hydraulic jacks.
|
He
started in a machine shop and invented a ‘portable hydraulic jack – and his
company has not looked back since. It now designs, manufactures, rents and
sells high-pressure hydraulic jacking equipment used to lift bridges, roofs
and a range of other heavy structures. His Company now manufactures
single-acting jacks of up to 1,250 tons capacity, as well as other types,
pumps, controls and synchronous systems, load test systems (for piles and so
on) as well as hydrostatic test pumps. Its innovations have now
produced multi-piston hydraulic jacks for limited spaces such as in
bridges up to 50 ton capacity each within a height of 1.5in and a stroke of
0.75in. For the NASA the company has manufactured 1 inch, 1,200 ton load
cells. With the continuing trend to assemble large prefab elements, it’s
always a good thing to have an idea of how you’re going to move and lift
them.
|
Modern
Helicopter
|
Igor
Sikorsky
|
Russia
|
While
still a schoolboy in Russia
he built several model aircraft and helicopters. This provided the basis of
his lifetime work in aeronautics and eventually the title of the father of
helicopters.
|
After
arriving in the USA
as an immigrant with little to his name, he soon found out that his money was
running out and he resorted to teaching Russian immigrants mathematics, later
astronomy and aviation lessons were included. He also started to lecture to
various groups which brought him in contact with people who shared his
enthusiasm for aviation which convinced him to start his own aeronautical
enterprise – the Sikorsky Corporation.
|
Rotary
clothes line
|
Lance
Hill
|
Australia
|
He started his inventive career after he returned from the
Second World War. He was unemployed and actively looking for work when he
decided to do something about it other than strike lucky. From his garden
shed he made a prototype that eventually started a major Australian company
with sales worldwide.
|
He invented the rotary clothes line because his wife asked him
if he could think of something better than the old clothes line and prop that
she had.
|
Email
|
Ray
Tomlinson
|
USA
|
He was
and still is today a software engineer working for BBN Technologies, a
subsidiary of Verizon Communications.
(The
content of the first email message – from him on one computer to himself on
another -- is forgotten. He didn't make a big deal of his breakthrough.
"When he showed to his colleague Jerry Burchfiel, he said, “Don't tell
anyone! This isn't what we're supposed to be working on.'").
|
He
created one of the biggest communications phenomena almost by accident.
At the time he didn't know he was creating something important. When asked
how he did it he mused, "I think I may have just dragged my fingers
across the keyboard.
In
1971 he was tinkering with a programme that allowed staff at ARPANET to leave
messages for each other. He'd been working on an experimental computer
program called CYPNET that transferred files between linked computers, and
thought it would be a neat idea if you could transfer messages as well as
files.
He chose the '@' symbol to mark the difference between a message that needed
to go to a mailbox on the local computer and one that was headed out onto the
network.
Typically, he told his colleagues about it via the mail system and it caught
on like wildfire - although it took about five years before ARPANET realised
what a hot property they had.
|
Jacuzzi
|
Roy
Jacuzzi
|
Italy
|
As a
teenager he worked in the family business in a variety of odd jobs, learning
how things worked from the ground up. In 1968, his passion for design and
engineering emerged when he invented and marketed the world’s first fully
integrated whirlpool bath, known as the Roman. He had sensed that American
consumers were moving toward an emphasis on health, fitness and leisure activities.
|
He
invented the world’s first whirlpool bath in 1968. He was determined and
peddled his invention one at a time at county fairs and trade shows. While
his family members looked on with both surprise and delight, he slowly and
surely – and nearly single-handedly – created a brand new industry. The Roman
whirlpool tub became an icon of free-spirited relaxation in the 1970’s … and
the brand Jacuzz i® became forever imprinted in American minds.
|
Jacquard Loom
|
Joseph Marie Jacquard
|
France
|
Was a
working weaver and where he could not support his wife who had to undertake a
very menial job to exist.
|
In his
spare time he in constructed improved loom. His final design weaved complex designs and where eventually France
had 11,000 Jacquard Looms alone.
Eventually
the French government declared that the loom was public property because its
commercial success was so important for France.
|
Janney
coupler
(Semiautomatic
railway coupling)
|
Eli
Janney
|
USA
|
He was
a dry goods clerk with an interest in railways.
|
He
used his lunch hours to whittle from wood an alternative to the link and pin
coupler that was so slow and dangerous to couple up railway carriages. His
invention eventually became a world leader as it saved time and was safe.
|
Kitty
Litter
|
Edward
Lowe
|
USA
|
He worked
for his father selling industrial absorbents, including products such as
sawdust and an absorbent clay called Fuller's Earth. (Vital to his phenomenal
and sustained success was a fiery desire to pursue a continuing cycle of
listening, learning and innovating).
|
Because
his neighbour’s cat was trailing ashy paw prints all over her home she
mentioned to him that she wished that there was a cleaner alternative. He
suggested that she use absorbent clay, she did and loved it. Thereafter he
started to distribute his kitty litter from the back of his car while
travelling around the USA
with his father’s products. Because of the remarkable success of his
intuition and thinking he founded Edward Lowe Industries, Inc. to mass
manufacture and distribute the successful kitty litter products. An example
of many where one simple product created a vast new industry.
|
Laptop
Computer
|
William
Moggridge
|
UK
|
He
started a small design firm on his own.
|
One of
his commissions was to design a small compact computer that could move with
you when you moved. His work enabled the first laptop to be created.
|
Laser
|
Gordon
Gould
|
USA
|
He
dropped out of university to concentrate on his personal thinking and to
exploit its commercial potential.
|
His
mechanically-minded mother encouraged him to be innovative and make things
with his hands. Later, through such encouragement he conceived and designed
one of the most significant inventions of the 20th century: the laser.
Now
countless practical applications of lasers have been established, including
welding, scanning and surge.ry. Created a new multi-global industry
|
Liquid
Crystals
|
George
H. Heilmeier
|
USA
|
He was
a research engineer.
|
His
private thinking sparked him into producing a paper on the possibility of
using liquid crystals for displays. Kick-starting a new multi-billion
dollar industry from scratch.
|
Adhesive
postage stamp
|
Roland
Hill
|
UK
|
He was
a schoolmaster.
|
He was
knighted for his invention.
|
First
postage stamp in the world
|
Roland
Hill
|
UK
|
|
|
Liquid
paper
|
Bette
Nesmith Graham
|
USA
|
She
was a secretary, single parent and artist by profession.
|
She never intended to be an inventor; she wanted to be an
artist. However, shortly after World War II ended, she found herself divorced
with a small child to support. She learned shorthand and typing and got a job
as an executive secretary. An efficient employee who took pride in her work,
she sought a better way to correct typing errors. She remembered that artists
painted over their mistakes on canvas, so why couldn’t typists paint over
their mistakes?
She
then put some tempera water based paint, coloured
to match the stationery she used, in a bottle and took her watercolour brush
to the office. She used this to correct her typing mistakes… her boss never
noticed. Soon another secretary saw the new invention and asked for some of
the correcting fluid. She found a green bottle at home, wrote "Mistake
Out" on a label, and gave it to her friend. Soon all the secretaries in
the building were asking for some, too. So started a product that has gone all
over the world.
|
Personal
Computer
|
Steve
Jobs
|
USA
|
He was
an orphan who was adopted by Paul and Clara Jobs. He started out designing
computer games for software companies.
|
After
comprehending were the world was going he started work in his father’s family
garage making the new computers that would change his life for ever and
managed to make his first "killing" when the Byte Shop in Mountain
View bought his first fifty fully assembled computers. On that basis the
Apple Corporation was founded, the name based on his favourite fruit. Apple
changed people's idea of a computer from a gigantic and inscrutable mass of
vacuum tubes only used by big business and the government to a small box used
by ordinary people. His thinking literally revolutionized the computer
hardware and software industry.
|
Magnetic
Core Memory
|
Kenneth
H. Olsen
|
USA
|
He
began his career working summers in a machine shop. Fixing radios in his
basement gave him the reputation of a neighbourhood 'Edison.'
|
He formed the Digital Equipment
Corporation (DEC). Digital began producing printed circuit logic modules used
by engineers to test electronic equipment. The company also started
developing the world's first small interactive computer.
Digital produced the PDP-11, which
became the most popular minicomputer line in history.
He
received patents for a saturable switch, a diode transformer gate circuit,
magnetic core memory, and the line printer buffer. From humble beginnings DEC
grew on the back of its innovations to be a major computer force.
|
Multicoordinate
Digital Information Storage Device
Random Access Memory (RAM)
|
Jay W.
Forrester
|
USA
|
He was
brought up on a cattle ranch but where his personal interest was the field of
computers.
|
He was
a pioneer in early digital computer development and invented random-access,
coincident-current magnetic storage, which became the standard memory device
for digital computers and which made billions for the manufacturers.
|
Mail
Order Catalogue
|
Aaron
Montgomery Ward
|
USA
|
When
he was fourteen, he was apprenticed to a trade to help support the family.
He
first worked on a cutting machine in a barrel stave factory, and then
stacking brick in a kiln. He then got employment at a department store as
both a store clerk and a travelling salesman.
|
As a
travelling salesman, he realized that his rural customers could be better
served by mail-order, a revolutionary idea. He started his business with only
$2,400 in capital. His company Montgomery Ward was a mail-order only business
until 1926, when the first Montgomery Ward retail store opened. Mail order is
now a global industry worth multi-billions in sales every year.
|
Matches
(first strikable anywhere)
|
John
Walker
|
UK
|
He
worked in a chemist’s shop and was an apothecary.
|
|
Aspirin
|
Felix
Hoffman
|
Germany
|
He was
a chemist by profession but created Aspirin in his own time to help his
family ease the pain of a disease that was crippling his father.
|
|
Coca
Cola (world’s most successful soft drink)
|
Pemberton
|
USA
|
He
went to a pharmacy school and started a small drug store.
|
|
The
Protractor
|
Joseph
Huddart
|
USA
|
He was
a ship’s captain.
|
|
Sextant
|
John
Campbell
|
UK
|
He was
a ship’s captain.
|
|
Chronometer
|
John
Harrison
|
UK
|
He was
a carpenter and amateur watchmaker with little formal education.
|
|
First
Practical MRI Scanner (basis of all modern medical full-body scanners)
|
John
Mallard
|
UK
|
He was
a university researcher who spent 17 years of his life developing a practical
MRI machine to see his great thinking and work disappear to other nations
when British industry and the ‘City’ would not back his work. Indeed, he
developed two of the most important diagnostic technologies of the 20th
century, namely Nuclear Medicine and Nuclear Magnetic Resonance Imaging
(NMRI).
|
|
Transistor
(a
single invention that is the basis of an industry now turning over US$1.7
TRILLION – source Texas Instruments website). It is probably the most
important invention of the 20th century.
|
William
Bradford Shockley
(co-inventor)
|
USA (but born in the UK)
|
He was
a physics researcher working at Bell Labs. His
father, William Snr was an MIT-trained mining engineer and adventurer, quite
capable of staring down bandits at gunpoint on Mongolian railroads, but
largely incapable of making a living. His mother became the first woman
surveyor in Nevada's
silver mining territory.
|
|
Transistor
|
John
Bardeen
(co-inventor)
|
USA
|
He was
one of five children with an interest in science.
|
|
Transistor
|
Walter
H. Brattain
(co-inventor)
|
USA
|
He was
brought up on a cattle ranch and later claimed that he put his cattle-herding
skills to good use when he went to work in research laboratories.
|
|
Integrated
Circuit
|
Jack
Kilby
(Joint-inventor)
|
USA
|
He
began his career as a rather undistinguished scientist. He couldn't get into
Massachusetts Institute of Technology (MIT), and he got consistently average
grades as an undergraduate at the University
of Illinois. But barely
ten years after he graduated from college he independently invented an integrated chip, the kind of chip that today lies
in the heart of every computer. By incorporating all the necessary electronic
components onto a single crystal of silicon,
He
never obtained a PhD but became one of the greatest electrical engineers of
all time.
|
|
Integrated
Circuit
|
Robert
Norton Noyce
(Joint-inventor)
|
USA
|
His
father was a preacher. He was the third of four boys. As a child he showed an
early interest in tinkering and figuring out how things work for himself.
|
He had
no interest in pure research and was an inventor by heart. He started the
INTEL Corporation, the 9th largest company in the world with a
shareholder value of US$185 Billion at 26th July 2004.
He
learned from his former employer’s mistakes and he gave his young, bright
employees phenomenal room to accomplish what they wished, in many ways
defining the Silicon Valley working style.
|
Microscope
(modern practical)
|
Anton
Van Leeuwenhoek
|
Netherlands
|
He started as an apprentice in a dry
goods store where magnifying glasses were used to count the threads in cloth.
He
once wrote, "My work, which I've done for a long time, was not pursued
in order to gain the praise I now enjoy, but chiefly from a craving after
knowledge, which I notice resides in me more than in most other men. And
therewithal, whenever I found out anything remarkable, I have thought it my
duty to put down my discovery on paper, so that all ingenious people might be
informed thereof.".
|
He is
given the title of ‘Father of the Microscope’.
He was inspired by the glasses used
by drapers to inspect the quality of cloth. He taught himself new methods for
grinding and polishing tiny lenses of great curvature which gave
magnifications up to 270x diameters, the finest known at that
time. These lenses led to the building of his Leeuwenhoek's microscopes
considered the first practical microscopes, and the biological discoveries
for which he is famous. He was the first to see and describe bacteria, yeast
plants, the teeming life in a drop of water, and the circulation of blood
corpuscles in capillaries. During a long life he used his lenses to make
pioneer studies on an extraordinary variety of things, both living and
non-living organisms.
From
these humble beginnings magnifying optics became eventually a global
industry.
|
Microbiological
sciences
|
Louis
Pasteur
|
France
|
He was
a chemist by profession and not a medical doctor as many think.
He was
the only son of a poorly educated tanner. He was not an outstanding student
during his years of elementary education, preferring fishing and drawing to
other subjects. In fact, when he was young his drawings suggested that
he could easily have become a superior portrait Artist. His later drawings of
friends done at college were so professional that he was listed in at least
two compendia of XIX C. artists.
(His
main contributions to microbiology and medicine were; instituting changes in
hospital/medical practices to minimize the spread of disease by microbes or
germs, discovering that weak forms of disease could be used as an
immunization against stronger forms and that rabies was transmitted by
viruses too small to be seen under the microscopes of the time, introducing
the medical world to the concept of viruses. Because he believed in
serendipity and that many discoveries were made by sheer chance, he was once
asked, "Did you ever observe to whom the accidents happen?” He replied,
“Chance favours only the prepared mind", now a well known fact in all
walks of life.
|
Three of his children died of
typhoid fever, possibly leading to Pasteur's drive to save people from
disease. He graduated in with honours in physics, mathematics, Latin, and
drawing.
In his
early research he worked with the wine growers of France, helping with the
fermentation process to develop a way to pasteurise and kill germs. He then
worked within the textile industry finding a cure for a disease affecting
silk worms. He also found cures for chicken cholera, anthrax and rabies.
During his lifetime it was not easy
for him to convince others of his ideas, controversial in their time but
considered absolutely correct today. He fought to convince surgeons that
germs existed and carried diseases, and dirty instruments and hands spread
germs and therefore disease. His pasteurisation process, kills germs and
prevents the spread of disease.
He
coined the word ‘Germ’ and introduced the world to the concept of Viruses.
He is
given the title of ‘Father of Microbiology and Immunology’.
These
great works derived by a single person from a poor family make clear
that people from ordinary backgrounds can literally change the world for the
better. Indeed, this single person provided the basis of many global industries
that are essential to modern life.
If one
were to choose among the greatest benefactors of humanity, Louis Pasteur
would certainly rank at the top.
|
Polymerase
chain Reaction (PCR)
- (The
patents were sold by his employer Cetus to Hoffmann-La Roche Inc. for
$300,000,000 in 1991)
|
Kary
Banks Mullis
|
USA
|
He was
brought up on a small country farm where none of the family had ever been
interested in science. Other than a scientist he is a surfer and considered
an "intellectual maverick" by many. He conceived and developed the
idea of PCR and where that idea was not the product of a painstaking
laboratory discipline, but was conceived while cruising in a Honda Civic on
Highway 128 from San Francisco
to Mendocino.
"I
do my best thinking while driving," the scientist with the tanned face
and bleached hair once explained. For this brilliant idea born at the speed
of 50 m.p.h., he received a $10,000 bonus from his employer Cetus, with whom
he eventually parted ways. He now lives in a small apartment across from Windansea Beach, a surfing spot made famous by
Tom Wolfe's novel, "The Pump House Gang."
|
Once in a while in the world of
science, there comes an idea or a tool so ingenious that it revolutionizes
the way people ask questions, .PCR, is one of these technologies. It has not
only made a tremendous impact on the scientific community, but it has also
affected many aspects of our everyday lives.
The
Polymerase Chain Reaction (PCR), which he devised has quite literally
revolutionized DNA technology. PCR amplifies specific DNA sequences from very
small amounts of complex genetic material. The amplification produces an
almost unlimited number of highly purified DNA molecules suitable for
analysis or manipulation. PCR has allowed screening for genetic and
infectious diseases. Analysis of DNAs from different populations, including
DNA from extinct species, has allowed the reconstruction of phylogenetic
trees including primates and humans. PCR is essential to forensics and
paternity testing.
Invention Impact
It has had a major impact on molecular biology, medicine, forensics,
molecular palaeontology, and many related fields.
PCR immediately spread to laboratories around the world where DNA chemistry
was performed. PCR technology has grown into a mult-Billion dollar a year
industry.
His
employer Cetus later sold the technology to La Roche for $300,000,000.
|
Microwave
oven
|
Percy
LaBaron Spencer
|
USA
|
He was
twice orphaned, had no formal education, lived on a small country farm and
was a totally self-taught engineer. In this respect he applied to be an
electrician first having no knowledge of the discipline whatsoever. After
learning on the job entirely by trial and error, he emerged as a competent
electrician. Thereafter he educated himself further by joining the US Navy in
the war effort and then companies within the electrical industry.
|
During a radar-related research
project testing a new vacuum tube called a magnetron he noticed that a candy
bar in his pocket had melted. He placed some popcorn kernels near the tube
and observed the popcorn popping. Later he made a metal box into which he fed
microwave power. The microwaves would cook food placed in the box. In fact,
he boiled an egg and due to the yoke cooking faster than the white, it blew
up in his face.
Microwave
ovens are now a part of every modern household and where this single
invention from a self-educated engineer has produced a global industry
turning over US$ billions every year.
|
General
Electric (GE) – world’s largest company
|
Thomas
Edison
|
USA
|
He had
only rudimentary education as a child and was according to his school teacher
a poor student. Thereafter with only 3-months of formal education his mother
took him from his school and taught him at home. With no formal learning
qualifications he started out in his working life as a railroad’s bell-boy
(selling newspapers and candy) and of course with no technical knowledge
whatsoever.
At an
early age he showed a fascination for mechanical things and for chemical
experiments. He set up in the baggage car what could be called his first
laboratory for his chemistry experiments and a printing press, where he
started the "Grand Trunk Herald", the first newspaper published on
a train.
|
GE can
trace back through its history and beginning to the companies formed by
Thomas Edison. His famous quotation was that, "Genius is one percent
inspiration and 99 percent perspiration”.
|
Light
bulb
|
Thomas
Edison
|
|
He was
the youngest of seven children with little going for him as a child and in
poor health. At the age of 12-years he lost nearly all his hearing. This
major disablement that persisted throughout his life made him more solitary
and shy in dealings with others. Therefore organizations should take note
that disabled people can be the very people who they should hire at times. Edison’s example proves that all people have
immeasurable skills. Indeed, skills that can eventually spawn the largest
company in the world.
|
Electric
bulbs are used throughout the world and where this product has created just
one of many multi-billion industries from the thinking of a totally
self-educated scientist and engineer of the first-order. By the time of his
death he had obtained 1,093 United
States patents, the most issued to any
individual ever.
|
Phonograph
|
Thomas
Edison
|
|
|
|
Kinetoscope
|
Thomas
Edison
|
|
|
He
believed that inventing useful products offered everyone the opportunity for
fame and fortune while benefiting society.
|
Improvements
upon the original design of the stock ticker, the telegraph, and Alexander
Graham Bell’s telephone.
|
Thomas
Edison
|
|
|
|
Electricity
Industry in the USA
|
Thomas
Edison
|
|
|
He
created the first electricity generating companies in the USA
|
Telephone
|
Alexander
Graham Bell
|
UK
|
He was
the son and grandson of people who taught elocution and the correction of
speech. He was educated to pursue a career in the same specialty and with
this knowledge of the nature of sound it led him not only to teach the deaf,
but also to invent the telephone.
Bell shows that the diversity of thought in other areas
can create the world’s primary industries and those that are worth billions.
|
When
he began experimenting with electrical signals, the telegraph had been an
established means of communication for some 30 years. Although a highly
successful system, the telegraph, with its dot-and-dash Morse Code, was
basically limited to receiving and sending one message at a time. His
extensive knowledge of the nature of sound and his understanding of music
enabled him to conjecture the possibility of transmitting multiple messages
over the same wire at the same time. Although the idea of a multiple
telegraph had been in existence for some time, he offered his own musical or
harmonic approach as a possible practical solution. This "harmonic
telegraph" was based on the principle that several notes could be sent simultaneously
along the same wire if the notes or signals differed in pitch.
He
once said, "Leave the beaten track occasionally and dive into the woods.
Every time you do so you will be certain to find something that you have
never seen before. Follow it up, explore all around it, and before you know
it, you will have something worth thinking about to occupy your mind. All
really big discoveries are the results of thought."
|
Cell
Phones/Mobile Phones – First hand-held
|
Martin
Cooper
|
USA
|
Trained
as an electrical engineer and served in the US Navy on combat ships and
submarines prior to starting with Motorola Corporation.
|
His
application of cell phone technology was years ahead of all others although
Bell Labs. had first created the technology ten years before. Bell had not the
foresight to see what they had in their hands. He is given the title of
‘Father of the Cellular Phone’.
|
Penicillin
|
Alexander
Fleming
|
UK
|
He was
brought up on a remote sheep farm in Scotland with little early access
to education. He started out in life working as a shipping clerk.
|
One of the great accidents and
serendipitous events in the history of science and medicine.
In this case it was when he left a
culture plate smeared with Staphylococcus bacteria on his lab bench while he
went on a two-week holiday.
When he returned, he noticed a clear
halo surrounding the yellow-green growth of a mould that had accidentally
contaminated the plate. Unknown to him, a spore of a rare variant called
Penicillium notatum had drifted in from a mycology lab one floor below. Luck
would have it that he had decided not to store his culture in a warm
incubator, and that London
was then hit by a cold spell, giving the mould a chance to grow. Later, as
the temperature rose, the Staphylococcus bacteria grew like a lawn, covering
the entire plate — except for the area surrounding the mouldy contaminant.
Seeing that halo was his "Eureka"
moment, an instant of great personal insight and deductive reasoning. He
correctly deduced that the mould must have released a substance that
inhibited the growth of the bacteria.
Penicillin
has now saved millions of lives over the years and thereby a new industry has
been created around it. Indeed, the indirect economic effect of sustaining
the lives of those people who have been saved through this treatment has
probably allowed vast wealth to be delivered and which would not have been
there otherwise. In this respect the health of a company’s workforce is of
paramount concern.
|
56K
Modem (for telecommunications)
|
Brent
Townsend
|
Canada
|
He is
an electrical engineer who worked for Bell Labs before he started his own
company.
|
He
came up with the idea while building an appliance for downloading music from
servers over direct-dial phone connections. His Music Fax system looked to be
a precursor of file-sharing systems - and lawsuit magnets - such as Napster
and Kazaa. Working on Music Fax, he recognized that modem speeds were too
slow for real-time playing of songs. Early MPEG could transmit good sound at
50K to 60K bit/sec, but the fastest modems only topped out at 33.6K bit/sec.
He
noticed that downloads from servers connected to the phone network via
digital links, such as T-1s, could reach 56K bit/sec because they didn't have
to undergo speed-sapping analog-to-digital conversions. Uploads required
these conversions, limiting speeds to 33.6K bit/sec. He patented technology
essential to making fast-down, slow-up modems.
He
said, “This is an easy thing to do. I can just license this to people that
are in the modem business. I don't have to start competing with them or set
up my own distribution".
His
patent claim came as a horrible surprise to International Telecommunication
Union members working on a 56K bit/sec modem standard in 1996. At a meeting,
word came out that he had not only filed for a patent but had already
licensed his ideas to modem maker U.S. Robotics.
He has
since made and is making millions from this sole invention that his global
patents protect.
|
Nuclear
Isotopes for Cancer Treatment
|
Glenn
T. Seaborg
|
USA
|
He was
with his father and mother an immigrant from Sweden. His father was a
working-class machinist. And once said that had they not gone to the USA
he would probably have been a machinist as well as all his former generations
had been a machinist.
|
Most
nuclear isotopes used in the fight against Cancer are those created by
Seaborg.
Although
Seaborg with others created the atomic bomb he unceasingly worked for the
limitation in the arms race. One of many examples of his humanity was when he
wrote to President Harry Truman at the backend of World War II to deter him
from dropping the atomic bomb on Japan, suggesting that he first
demonstrate the weapon to the world on a barren island. Having amongst other
great scientific achievements discovered with his team nearly 10% of the
Universe’s Elements, he became the only ‘living’
scientist to have an element named in his honour – Element 106 Seaborgium.
|
Nystatin
(worlds first non-toxic and useful antifungal antibiotic)
|
Rachel
Fuller Brown
(co
inventor)
|
USA
|
Her
father left the family when she was twelve. Her mother worked as a
secretary at various churches. She had therefore no one to instil a
scientific life but this is what happened through serindipidy.
|
Through
long distance collaboration she shared tests and samples with Elizabeth Hazen
via the U.S.
mail. To Hazen's single-minded pursuit of an antifungal antibiotic, Brown
added the skills needed to identify, characterize, and purify the various
substances produced by culturing bacteria found in hundreds of soil samples.
Not
only did it cure many disfiguring and disabling fungal infections of the
skin, mouth, throat, and intestinal tract, but it could be combined with
antibacterial drugs to balance their effects.
|
Nystatin
(worlds first useful antifungal antibiotic)
|
Elizabeth
Lee Hazen
(co
inventor)
|
USA
|
She
was orphaned at the age of three and raised by relatives.
She
attending a one-room school.
|
See
above.
|
X-Ray
Tube
|
William
David Coolidge
|
USA
|
His father was a shoemaker by
occupation and supplemented his income by running a farm of seven acres. His
mother was a dressmaker in her spare time. He was brought up where there was
very limited family financial resources
As an only child of his parents, he had a regular routine of farm chores.
This, however, left room for fishing (summer and winter), baseball, hiking,
skating, and primitive skiing. Photography became a lifelong hobby, and
during this period he built a basement darkroom and constructed his own
camera, including the shutter.
After
grade school he attended Hudson
High School where, in
due time, he graduated valedictorian in his class of thirteen. En route, he
quit school for a while and took a job in a local factory manufacturing
rubber garments. After a few months he decided that this was not a very good
idea, and he went back to school, where he caught up with his class without
difficulty. He had assumed that, with very limited family financial
resources, he would not be going to college at the end of the school year.
His plans changed when a friend who had been impressed by his scholastic
record and his mechanical and electrical aptitudes suggested that he might be
able to obtain a state scholarship to MIT. He applied, the grant was awarded,
and in the fall of 1891 he went to Boston
to continue his studies.
|
It is
impossible to estimate the number of lives that have been saved thanks to
Coolidge's greatest achievement---to say nothing of its applications in
scientific research (for example, in analyzing the structure of crystals).
The "Coolidge tube" stands as a classic example of an inventive
mind harnessing a phenomenon of nature and putting it to use for the good of
humanity.
|
Crookes
tube (precursor of the X-ray tube)
|
William
Crookes
|
UK
|
His
father was a tailor from the North of England
|
He
received rudimentary education to the age of 14 years.
His
father became very rich and upon his death inherited his fortune. With this
money he created his own private laboratory where all his great discoveries
took place.
|
Nonreflecting
glass (invisible glass)
|
Katherine
J. Blodgett
|
France/USA
|
She
did not attend normal school for most of her life and was raised solely by
her mother.
With
these handicaps she became the first woman to receive a Ph.D. in Physics from
Cambridge University.
|
She is
responsible for the way we all view the world. Without the research that she
and Irving Langmuir pioneered in the 1920's and 30's, we would see things in
an entirely different light.
During WWI and WWII, her research
was of great consequence. She pioneered methods of de-icing aircraft wings, poison
gas absorption, and improved smokescreens. As well, of course, the
Langmuir-Blodgett films had a wide range of wartime uses, including
periscopes, binoculars, range finders, and telescopes, all of which are still
in use.
Her
pioneering spirit and thirst for knowledge have provided us with much of the
technology we use. The computer screen through which you are viewing this
article, the glasses you might be wearing, the television you watch, or the
movie, DLP, LCD or CRT projector through which the next film you see is
projected, are all possible because of her efforts.
|
|
|
|
Her
scant economy forced her to support herself on extra work; one of her jobs
was catching cats for the physiological laboratory.
|
|
New-born
scoring system
|
Virginia Apgar
|
USA
|
Her father
was an insurance executive and the family had no scientific relatives in the
family.
|
When a
baby is born, the new parents immediately memorize the child's weight, length
and time of birth. But there's an equally important vital statistic they
frequently note: the child's "Apgar score."
She
developed the now famous test that measures the infant's physical condition
minutes after birth. Her efforts led at least one health official to credit
her with doing more to improve the health of mothers, babies and the unborn
than perhaps anyone this century. Given at one minute and five minutes after
birth, the Apgar test quickly assesses the: A ppearance
(skin color), P ulse, G rimace
(reflexes), A ctivity (muscle activity) and R espiration
(breathing).
A low
score can immediately signal the need for emergency medical attention. She is
said to have developed the lO-point scoring system in 1952 to force
physicians and nurses to pay more attention to newborns in the first critical
minutes of life. As a result, her work formed the foundation of what was then
a new medical specialty-perinatology, which since has helped save countless
infant lives. Her contributions to medicine and health, however, extended far
beyond the development of the infant test that bears her name.
|
Computer
mouse
|
Douglas
Engelbart
|
USA/Norway
|
His
family were immigrants that travelled from Norway
to the US.
His
father was a salesman for a while, but he became interested in radio
and started a radio shop selling and repairing radios. His father died
when he was 9 years old.
He
initially after graduating had a line-job putting things together.
|
He
envisioned a computer that would work in the modern office and made it a
practical reality.
In the
early days he tried building a radio with crystals but they never worked.
He
dedicated his career to designing systems that could help humans collectively
manage their increasing complex world.
|
Aluminum
manufacturing process
|
Charles
Martin Hall
|
USA
|
His
father was a church minister.
He was
a private experimenter working with basic equipment.
He
only had his BA in chemistry (basic knowledge) and a driving interest in
providing an inexpensive way to liberate aluminium. His university teacher
who once said in his class that anyone who could achieve this would be very
rich indeed fuelled this drive. He took his teacher’s words literally and
invented such a system. The equivalent in many ways of the Bessamer Converter
that made cheap steel production possible years earlier.
|
His
was predominantly musically minded.
After
graduating with a BA he invented an inexpensive method for the production of
aluminum. On February 23, 1886 in the woodshed behind his family's home, he
produced globules of aluminum metal by the electrolysis of aluminum oxide
dissolved in a cryolite-aluminum fluoride mixture and repeated this
experiment the next day for his sister Julia to witness. He was 22years of
age at the time. This achievement was the culmination of several years of
intensive work on this problem. He was granted patent #400,655 for his
process.
Not
only did he have to devise a method for winning aluminum metal, but he also
had to fabricate most of his apparatus and prepare his chemicals.
He
found a financial backer in Alfred E. Hunt, and the two of them founded the
Pittsburgh Reduction Company (later ALCOA). The rest is history.
|
Computerized
Telephone Switching System
|
Erna
Schneider Hoover
|
USA
|
She
was a medievalist, logistician, working mother, and computer programmer.
She
was the first woman elected to the US National Inventors Hall of Fame.
|
She
earned a B.A. with honors from in medieval history and a Ph.D. in philosophy
and foundations of mathematics.
She
was in the hospital after giving birth to one of her three daughters when she
drew up the first sketches of her system. Her solution was to use a
computer to monitor the frequency of incoming calls at different times, and
to adjust the call acceptance rate accordingly. By putting a simple theory
into practice through the complexities of computer programming, she eliminated
the danger of overload in processing calls.
|
O-ring
(a rubber doughnut nestled inside a grooved metal housing)
|
Niels
Christensen
|
Denmark
|
He was
a pensioner and an independent inventor who patented the O-Ring at the age of
72 years.
|
He
invented it whilst developing automobile brakes.
The
O-Ring is the most widely adapted seal in history because of its simplicity,
low cost, ease of installation, and small space requirements without
supporting structures.
It has
created a whole new global industry that industry is now dependant upon.
|
Optical
diagnostic equipment
|
Tuan
Vo-Dinh
|
Vietnam
|
During
the Vietnam War he received a scholarship from the government of Vietnam and went to Switzerland to be educated.
Science was his great interest and where he built his own toys as a boy.
|
He has
invented numerous lifesaving devices that detect and diagnose diseases by
optical scanning. One of his first patents was for a disimeter, a device that
workers (those employed in plants, laboratories, etc.) can clip to their clothing,
and at the end of the day, it gives the reading of any material the employee
has been exposed to. Another devise that he has invented can recognize the
mutation of genes in the human body to see whether a person has the
likelihood to develop a disease such as cancer, Alzheimer, or it can detect a
virus like HIV, tuberculosis or microbes.
He has
also invented a number of life-saving devices which detect and diagnose
diseases, defects and toxins by optical scanning (using lasers and
fiberoptics) rather than biopsy (the removal of bodily tissue for analysis).
|
Compact
Disc
|
James
T. Russell
|
USA
|
At age
six, he invented a remote-control battleship, with a storage chamber for his
lunch.
In
1965 he patented a system to read a sequence of sampled music recorded on a
disc via a laser. The system remained on the drawing board until the 1980s.
|
He was
an avid music listener. Like many audiophiles of the time, he was continually
frustrated by the wear and tear suffered by his vinyl phonograph records. He
was also unsatisfied with their sound quality: his experimental improvements
included using a cactus needle as a stylus.
Alone
at home on a Saturday
afternoon, He began to sketch out a better music recording system --- and was
inspired with a truly revolutionary idea.
Like
many ideas far ahead of their time, the CD-ROM found few interested investors
at first; but eventually, Sony and other audio companies realized the
implications and purchased licenses.
|
RADAR
|
Robert
Watson-Watt
|
Scotland
|
He was
a direct descendant of James Watt, pioneer of the steam engine. He was the
youngest son and his father, like his grandfather, was a carpenter by trade,
an Elder of the Presbyterian Church and a very able Sunday School teacher.
His mother, was a temperance reformer, a feminist and described her as
miraculous.
|
It was
his thinking and his thinking alone. No one, either government or industry,
asked him to invent RADAR. He did it out of personal thinking, interest and
great intuition.
Radar
(RAdio Detection And Ranging), was the single biggest technological factor in
the Allied victory of the Battle of Britain and in achieving and maintaining
mastery of the skies throughout World War II.
His
first line of research was in meteorology where he used short-wave radio to
detect the location of thunderstorms. By combining this direction finding
technique with the ranging capabilities of ionosondes, he designed a system
that was capable of detecting aeroplanes.
|
Anti-pollution
devices
|
Mary
Walton
|
USA
|
She
was an independent inventor who was not one to stand idly by choking on the
smog that the factories produced during the Industrial Revolution.
|
After
cleaning up the air, she moved onto the noise pollution that seemed to fill
the air as well as the heads of New Yorkers.
Working
in her basement, Walton built a model train set and began working to cut down
on the clanging of the trolleys. She built a wooden box, painted it with tar,
lined it with cotton, and filled it with sand. The vibration from the rails
was absorbed. After putting her invention under the struts that supported the
city trains, she received a patent for her work. She sold the rights of her
patent to the New York City Metropolitan railroad.
|
Elevated
railway
|
Mary
Walton
|
USA
|
|
|
Improved
locomotive chimney
|
Mary
Walton
|
USA
|
|
|
Car
heater
|
Margaret
Wilcox
|
USA
|
Invented
it for herself to keep warm.
|
|
Computer
program
(world’s
first documented computer programmer)
|
Augusta Ada
Byron
|
UK
|
She
was the daughter of English poet Lord Byron but had no interest in poetry and
was fascinated with physical calculations that proved something. With the
help of friends and tutors, she taught herself geometry and later attended
classes in astronomy and mathematics.
|
In
1833 she met British mathematician and inventor Charles Babbage. He had
invented the Difference Engine, a mechanical device designed to handle
complicated mathematical problems. She showed her understanding of the
concept of a programmed computer in 1842, when she translated from French and
annotated a paper by the Italian engineer Luigi F. Menabrea on Babbage's
Difference Engine. She also collaborated with Babbage to invent the
Analytical Engine, an archetype of the modern digital computer. The
technology of their time was not capable of translating their ideas into
practical use, but the Analytical Engine had many features of the modern
computer. It could read data from a deck of punched cards, store data, and
perform arithmetic operations.
Components
of her work remain in the modern digital electronic computer that receives a
set of instructions, then carries out those instructions.She set of
instructions was a forerunner of modern programming languages and historians
have credited her as the first computer programmer.
|
Fire
Escapes
|
Anna
Connelly
|
USA
|
She
was the first person to patent the idea.
|
She
designed them in such a way that people could not go up the fire escape, only
down them despite what one sees in old movies.
|
Grain
storage bin
|
Lizzie
Dickelman
|
USA
|
She
was an independent farmer and inventor.
|
She
needed it for enhanced farm production
|
ventilated
storehouse
|
Lizzie
Dickelman
|
USA
|
|
She
needed it for enhanced farm production
|
heated
brooder (where incubated chicks could be nested without the hens)
|
Lizzie
Dickelman
|
USA
|
|
She
needed it for enhanced farm production
|
Engine
muffler
|
El Dorado Jones
|
USA
|
She
was an independent inventor.
|
She
simply hated the engine noise and decided to do something about it.
|
Circular
Saw
|
Tabitha Babbit
|
USA
|
She
was a member of the Shaker society and invented the circular saw as she sat
there at her spinning wheel watching some of her Brother Shakers toiling
while they cut wood. She observed that one half of the motion was lost, and
so conceived the idea of the circular saw. She made a thin disk, notched it
around the edge, slipped it on the spindle of her spinning wheel, tried it on
a piece of shingle, found that it would cut and gave the world the buzz saw.
The first circular saw made under her instructions is on exhibit in the Geological Building
at Albany, NY.
|
The
Shakers were modernists. Sister Tabitha invented the circular saw and sought
effective ways to produce the community's goods, blending quality craft with
new production techniques. The Shakers were among the first to build and
operate
circular sawmills in this country, and later applied this technology to other
areas as well.
|
Rotary
washing Machine
|
Margaret
Plunkett Colvin
|
USA
|
She
was a housewife and inventor.
|
She
made it for herself to make life easier.
|
Outboard
boat motor
|
Ole
Evinrude
|
Norway
|
When
his family emigration to America,
when he was five he spent almost the entire trip in the ship's engine room.
He
much preferred working with farm tools and machinery, first around his
father's property, then as an apprentice and labourer in factories all over
the US Midwest. A tireless worker, he allowed himself only one indulgence, a
subscription to a mechanics magazine.
|
Founded
an industry and managed a thriving company while remaining one of America's
most honest and generous businessmen.
He
first read about the internal combustion engine, already being used in Germany
experimentally to power the "horseless carriage."
Whilst
going to buy an ice-cream for his young love around a bay, he realised that
not just automobiles needed an engine but a small boat would make the trip
far quicker. Thereafter he started his new concept and never looked back.
|
Propeller
driven ships
|
John
Ericsson
|
Sweden
|
As a
youth, he joined the Swedish Army, which recognized his talents and put him
to work on topographical duties.
|
He
moved to England,
where he pursued a variety of engineering projects, among them the use of
screw propellers on ships, the development of extraordinarily large guns and
the creation of engines driven by hot air instead of steam.
|
Deep-sea
sounding device
|
John
Ericsson
|
Sweden
|
|
|
First
Traffic Lights (manually operated)
|
J P Knight
|
UK
|
He
came from a working-class family who rose to become superintendent on the South-Eastern railway of Britain.
|
He
simply designed them from those on his railways to control traffic and
pedestrians.
|
Molecular
sieves
|
Edith
Flanigen
|
USA
|
Her
mother was a homemaker and her dad was in the lumber business. She came from
a working-class background.
|
Imagine
looking into a tiny crystal and seeing in it the ability to make gasoline
cleaner, water purer and natural gas safer. That's the first step toward
understanding the simple power of a zeolite -- and the genius of chemist
Edith Flanigen.
For a
couple of centuries, zeolite crystals had intrigued scientists because they
contain tiny channels and cavities inside that act like a sieve.
Where
a filter stops larger particles and allows smaller ones to pass through, a
sieve sends through larger particles while trapping smaller molecules in its
complex web.
She
was the woman who learnt how to make all kinds of zeolites in a lab and
harness their unique properties.
The
most significant of these discoveries was ``zeolite Y'' -- a sieve that could
take the crude oil found in earth and break it down into its parts. It
separated the part that is turned into gasoline in a way that was cleaner and
safer than any previous refining method.
Today,
other sieves are used to purify water and remove moisture from refrigerator
lines and auto air conditioners so they don't freeze.
They
dry and purify natural gas for the home, are used to clean up nuclear waste
sites (including Three Mile Island and Chernobyl)
and are used to make household detergents more environmentally friendly.
They
are used in dual-pane windows to help save energy and prevent fogging, and
have found their way into personal hygiene products for their ability to
absorb odours.
Today
‘molecular sieves’ are a multi-billion dollar global industry and created in
the main by one single woman.
|
The
Screw Propeller for driving Ships (1st Practical introducer of)
|
Francis
Petttit Smith
|
UK
|
He was
a grazing farmer on
Romney Marsh in Kent, UK
|
He had
a fascination with boats and made many models of boats. His experiments
extending over many years. He arrived at the conclusion that his method of
propelling steam vessels by means of a screw was much superior to
paddles; at that time exclusively employed.
As
with all great technological breakthroughs almost simultaneously a Swede had
also invented the ship screw propeller. But although Captain Ericsson
invented a screw propeller also, Smith took out his patent in May, 1836; and
Ericsson in the
following July. Therefore Smith was the first to patent his great invention
and the precedence is seeded to the English farmer.
|
Minicomputer
was born in a in Bridgeport,
Connecticut, USA.
|
Ken
Olsen
|
USA
|
He was
the son of a working-class Danish migrant.
He had
an intense interest in the workings and construction of computers.
|
He
founded Digital Equipment Corporation (DEC) and made the world's first
minicomputer. He always considered himself as a working engineer and insisted
on working on the shop floor and not in an office. There is DEC folklore of
him wearing chequered work shirts and being mistaken for the janitor by a new
employees.
|
Polyvinyl
Chloride (PVC)
|
Waldo
L. Semon
|
USA
|
He was
born into a working-class family and as a new employee decided to pursue a
dubious project. Instead of digging into his assigned work (adhesives), he
began trying to dissolve an undesirable material called polyvinyl chloride
(PVC) to create an adhesive for bonding rubber to metal.
'People then thought of PVC as worthless back then,' he recalled. 'They'd
throw it in the trash bin.'
|
He
never succeeded in creating the adhesive he was told to create by his
employer, but by heating PVC in a solvent at a high boiling point he
discovered a substance that was both flexible and elastic. At first no one
literally knew what to make of Semon's newfangled substance, but decades
later PVC has become the world's second-best-selling plastic, generating
billions of dollars in sales each year.
|
PVDC
wrapping films – the basis of ‘cling-film’.
|
Ralph
Wiley
|
USA
|
He was
a chemical lab worker who accidentally discovered polyvinylidene chloride or
Saran. He was a college student who cleaned glassware in a Dow Chemical lab
and came across a vial he couldn't scrub clean. He called the substance
"eonite", after an indestructible material in the comic strip
"Little Orphan Annie." Dow researchers made his "eonite"
into a greasy, dark green film, which Dow called "Saran". The military
sprayed it on fighter planes to guard against salty sea spray and carmakers
used it for upholstery. Dow later got rid the of Saran's green colour and
unpleasant odour.
Saran
films are best known in the form of Saran Wrap ® film, the first cling wrap
designed for household (1953) and commercial use (1949), introduced by the
Dow Chemical Company. Saran Wrap ® brand plastic film is now marketed by S.
C. Johnson.
|
Saran
polyvinylidene chloride or Saran resins and films (called PVDC) have been
wrapping products for more than 50 years. Saran works by polymerizing
vinylide chloride with monomers such as acrylic esters and unsaturated
carboxyl groups, forming long chains of vinylide chloride. The
copolymerization results in a film with molecules bound so tightly together
that very little gas or water can get through. The result is a barrier
against oxygen, moisture, chemicals and heat-qualities used to protect food,
consumer and industrial products. PVDC is resistant to oxygen, water, acids,
bases, and solvents.
After
World War 2, it was approved for food packaging, and it was Prior Sanctioned
in 1956 (Society of the Plastics Industry). PVDC is cleared for use as a food
contact surface as a base polymer, in food package gaskets, in direct contact
with dry foods, and for paperboard coating in contact with fatty and aqueous
foods.
Saran
resins for food contact can be extruded, coextruded or coated by a processor
to meet specific packaging needs. About 85 percent of PVDC is used as a thin
layer between cellophane, paper and plastic packaging to improve barrier
performance. For non-food contact, Saran resins can be used for molding and
melt adhesive bonding. In combination with polyolefins, polystyrene and other
polymers, Saran can be coextruded into multilayer sheets, films and tubes.
|
Cotton
swabs or Q-tip
|
Leo Gerstenzang
|
Poland
|
He was
a Polish immigrant who travelled to the USA with little money or
financial support.
|
One
day he found himself watching his wife applying cotton wads to toothpicks in
an attempt to reach hard-to-clean areas. He noticed that his wife had stuck a
bit of cotton on a toothpick and was using it to clean their baby's ears.
Thinking that this jerry-rigged swab might cause some damage to the child’s
ear he designed a safer cotton swab.
|
Modern
Safety Pin
|
Walter
Hunt
|
USA
|
He was
a mechanic by trade and an amateur inventor in his spare time.
|
It was
twisting a piece of wire, trying to think of something that would help him
pay off a fifteen dollar debt that provided him with the invention. But he
thought little of his safety pin as an invention and soon sold the patent for
four hundred dollars.
|
Slinky
|
Richard James
|
USA
|
He was a naval engineer trying to develop a meter designed to
monitor horsepower on naval battleships. He was working with tension springs
when one of the springs fell to the ground. He saw how the spring kept moving
after it hit the ground and an idea for a toy was born.
|
He remarked to his wife Betty, "I think I can make a toy
out of this." Richard then spent the next two years figuring out the
best steel gauge and coil to use in making the toy and Betty James found a
name for the new toy after discovering in the dictionary that the word
"Slinky" is a Swedish word meaning traespiral - sleek or sinuous.
He and his wife founded a Company with $500 dollars to mass
produce their creation. Over a quarter of a billion Slinkys ® have been sold
worldwide.
|
Slot
Machines
|
Charles
Fey
|
USA
|
He was
a mechanic by trade and freelance inventor.
|
This
invention has travelled the world and created instant gambling and fortunes
for many businesses. Indeed, although a simple technological product it is a
product that makes vast amounts of money every day of the year and provides a
continuous flow of global income.
|
vacuum
cleaner (electric)
|
James Murray Spangler
|
USA
|
He was
a janitor in a department store.
|
He deduced that the carpet sweeper he used was the source of his
cough. He tinkered with an old fan motor and attached it to a soap box
stapled to a broom handle. Using a pillow case as a dust collector on the
contraption, Spangler invented a portable electric vacuum cleaner. He then
improved his basic model the first to use both a cloth filter bag and
cleaning attachments, and received a patent and formed the Electric Suction
Sweeper Company. One of the first buyers was a cousin, whose husband, William
H. Hoover, later became the president of the Hoover Company, with Spangler as
superintendent. Hoover’s
improvements resembled a bagpipe attached to a cake box, but they worked.
Sluggish sales were given a kick by Hoover’s
10 day, free home trial, and eventually there was a Hoover® vacuum cleaner in
nearly every home.
|
vacuum
packed canning
|
Amanda
Jones
|
USA
|
She
was a poet, editor and inventor but not an engineer or scientist.
|
She
published her first poems in the pages of the "Ladies'
Repository," a Methodist magazine located in Cincinnati, Ohio.
During the Civil War she penned a number of war-songs
that received a wide circulation. After the war she became
an associate editor on the Chicago
journal, the "Universe," and was subsequently a contributor
to the "Western Rural." Later she was named editor of
"The Bright Side," a juvenile weekly. Later she cut back
on her literary work to pursue the commercial interests that would
add her name to the roster of American inventors, well earned by
her successful food canning process and her device for the safe
fuelling of oil furnaces.
|
VisiCalc
– (the first computer spreadsheet program)
|
Dan
Bricklin and Bob Frankston
|
USA
|
They
were from working-class backgrounds and where their invention stemmed out of
frustration. He knew computers could be of immense benefit for business and
through his knowledge he also knew that there had to be a better way to do
spreadsheets than was presently available at that time. Bricklin began to
create a software program that would do for numbers what word processing did
for words -- enable the user to insert and delete elements and see an
immediate change in the results.
|
Whilst
a masters student in business administration at Harvard Business School, Dan
Bricklin joined up with Bob Frankston to help him write the programming for
his new electronic spreadsheet. The two started their own company, Software
Arts Inc., to develop their product after graduating.
Computer
spreadsheet programs are now a multi-billion dollar industry worldwide.
|
Walkie
talkie
|
Al
Gross
|
USA
|
By the
time he was twelve, he had turned his basement into an amateur radio
headquarters, thanks to equipment gleaned from junkyards. He obtained his
amateur radio license at the age of 16. His early interest in amateur radio
helped set his career choice while he was still a teenager.
|
He
developed it while he was still in high school. He developed circuits and
components for miniaturized portable communications that were unheard of for
that era.
He
played a major role in establishing miniaturized portable communication and
the base for a new global industry.
|
|
|
|
|
|