JUST THE FACTS INVENTIONS AND DISCOVERIES
A fact-by-fact look at inventions throughout history, from flint tools and the wheel to the Internet and beyond.
• Comprehensive details on inventions that changed the world. • Geological discoveries and medical breakthroughs. • Full-color photographs. The most up-to-date information available, presented in a unique easy-reference system of lists, fact boxes, tables, and charts.
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INVENTIONS & DISCOVERIES
CONTENTS HOW TO USE THIS BOOK ....................................................................................4 TIMELINE – AN AMAZING STORY ............................................................6 • Timeline: 250,000 BC STONE TOOLS to 1770 STRUCTURE OF WATER • The first clocks • The atomic clock TIMELINE continued .....................................................................................................8 • Timeline: 1794 THE COTTON GIN to 1943 COLOSSUS • Invention of printing • Invention of photography TIMELINE continued ...............................................................................10 • Timeline: 1946 CARBON DATING to 2004 A NEW PLANET • Nuclear power • Mathematics EARLY INVENTORS ...................................................................................................12 • Timeline of early inventions • Early farming • Metals • Invention of writing • Invention of painting • Invention of pottery • Papyrus paper NATURAL WORLD......................................................................................................14 • Timeline of discoveries • Dinosaur discoveries • Charles Darwin • Homo Erectus • Continental drift • The story of DNA SCIENCE ALL AROUND .........................................................................................16 • Elements discovery timeline • Periodic table • The first microscope • A new carbon • High energy collisions • Lasers • The story of genetic engineering • Electricity timeline EXPLORING SPACE ...................................................................................................18 • Space discoveries timeline • Rocket pioneers • Invention of the telescope • Solar System discoveries • Hubble space telescope • Life on Mars • It came from space HUMAN BODY ...............................................................................................................20 • Discovery timeline • Blood • Human genome project • Discovering the human body Columbus, Ohio This edition published in the United States in 2006 by School Specialty Publishing, a member of the School Specialty Family. Copyright © ticktock Entertainment Ltd 2005 First published in Great Britain in 2005 by ticktock Media Ltd. Printed in China. All rights reserved. No part of this book may be reproduced, stored in a central retrieval system, or transmitted in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, withouth the prior written permission of the publisher. Written by Dee Phillips, Brian Alchorn, Catherine Chambers, David Dalton, Dougal Dixon, Ian Graham, Colin Hynson, Clint Twist, and Richard Walker. We would like to thank: Wendy and David Clemson, Evelyn Alchorn, Steve Owen, and Elizabeth Wiggans. Library of Congress-in-Publication Data is on file with the publisher. Send all inquiries to: School Specialty Publishing 8720 Orion Place Columbus, OH 43240-2111 ISBN 0-7696- 4256-X 1 2 3 4 5 6 7 8 9 10 TTM 11 10 09 08 07 06
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MEDICINE .............................................................................................................................22 • Medical timeline • The stethoscope • Antiseptic surgery • Alexander Fleming • Discovering X-Rays • First test-tube baby • Edward Jenner • Surgical timeline EARLY INDUSTRY .......................................................................................................24 • Textiles timeline • The Jacquard loom • Muntz metal • The story of mass production • The construction industry • Invention of dynamite • Otis safety elevator • Fantastic plastic • Iron and steel timeline ENGINE POWER ...........................................................................................................26 • Road vehicle timeline • Invention of the engine • Henry Ford • Oil • Steam power • Super steam • Fastest on four wheels • On the road timeline
COMMUNICATIONS continued ....................................................................32 • Radio timeline • Guglielmo Marconi • Portable radios • Clockwork radio • John Logie Baird • Satellites • The electronic television pioneers • Television timeline HOME AND FASHION ............................................................................................34 • Home inventions timeline • Invention of the Dyson • Toilet inventions • The light bulb • Invention of jeans • Invention of athletic shoes • Baby fashion • Nylon • The Mackintosh • Invention of the bra LEISURE AND TOYS .................................................................................................36 • Recorded music timeline • Musical inventions • Edison’s phonograph • The Walkman • Digital music • Toys and games • Invention of basketball • Inventing special effects • At the movies timeline FOOD AND DRINK ....................................................................................................38 • Growing food timeline • Inventing the sandwich • Coca-Cola • Louis Pasteur • Clarence Birdseye • Inventing cornflakes • Invention of the chip • Chocolate chip cookies by accident • Chocolate discovery and invention timeline THE COMPUTER............................................................................................................40 • Computers timeline • Ancient computer (abacus) • The first computers • Key developments • Inventions for the computer • Computers all around • Alan Turing INTERNET AND COMPUTER GAMES ...................................................42 • Internet timeline • Tim Berners-Lee • Inventing the Internet • Invention of email • Mosaic web browser • Pong • Computer games timeline • A fast-growing invention ROBOTS .................................................................................................................................44 • Robotics timeline • Robot security guard • Domestic robots • Cyber pets • Inventing hazbots • Invention of mini-robots • Robots in space • George Devol INVENTORS .......................................................................................................................46 • A–Z inventors listing • Archimedes • Galileo • Da Vinci • Newton • Gutenberg • Montgolfier brothers • Morse • Braille • Edison • Eastman • Curie • Einstein • Fermi • Crick and Watson INVENTIONS.....................................................................................................................52 • A–Z inventions listing • Inventor Words of Wisdom • What is a patent? • Famous patents • Patent problems • It seemed like a good idea at the time... • Concrete furniture GLOSSARY ..........................................................................................................................58 INDEX .......................................................................................................................................60
PLANES AND BOATS ...............................................................................................28 • Aircraft timeline • The first flight • Orville and Wilbur Wright • Inventing the jet engine • Test pilots • Balloon inventors • First submarine • Ship innovations • Invention of the hovercraft • Longitude COMMUNICATIONS .................................................................................................30 • Telegraph and telephone timeline • Chappe’s telegraph • Morse code • Invention of the postage stamp • Alexander Graham Bell • Invention of direct dialing • Mobile phones and text messaging • Video phones
3
HOW TO USE THIS BOOK
AN AMAZING STORY
c 250,000
J
What secrets are still to be discovered about our planet and our ancestors?
Water clock
BOX HEADINGS
TWO QUICK WAYS TO FIND A FACT:
TELEGRAPH & TELEPHONE TIMELINE 1794 – Chappe’s telegraph
1
Look at the detailed CONTENTS list on page 3 to find your topic of interest.
Claude Chappe begins the construction of his telegraph across France.
1825 – Electro-magnet The electro-magnet is invented. This is vital for the later invention of the telegraph.
1837 – Five-needle telegraph William Fothergill Cooke and Charles Wheatstone invent the five-needle telegraph. It works by sending an electric current along wires that move two of the five needles, either left or right, so that they both point to one letter at a time.
CANDLE CLOCKS c AD 800 When candles were used for telling the time, they were often divided up into sections that each took an hour to burn.
1842 – Fax machine
Turn to the relevant page and use the BOX HEADINGS to find the information box you need.
2
Turn to the INDEX which starts on page 60 and search for key words relating to your research. • The index will direct you to the correct page, and where on the page to find the fact you need.
The fax machine is invented by Alexander Bain, a physicist.
1843 – Morse telegraph Morse demonstrates his telegraph to the American Congress, and they give him $30,000 to build a telegraph line from Washington D.C. to Baltimore, a distance of 40 miles.
1844 – Morse’s message Morse sends the first message on the new telegraph line. It reads, “What hath God Wrought.”
INTRODUCTION TO TOPIC
• The towers were positioned 6 to 20 feet apart, and the messages were read by people using telescopes.
1858 – Atlantic cable A cable is laid between America and Britain so that telegraphs can be sent across the Atlantic. The cable fails within a month.
• Samuel Morse invented Morse code in 1838. He first got the idea for the code in 1832 when he was told about experiments with electricity. • Morse’s idea was to develop a code based on interrupting the flow of electricity so that a message could be heard.
A B C D E F G H I J K L M
•– –••• –•–• –•• • ••–• ––• •••• •• •––– –•– •–•• ––
N O P Q R S T U V W X Y Z
–• ––– •––• ––•– •–• ••• – ••– •••– •–– –••– –•–– ––••
• Morse code works very simply. Electricity is either switched on or off. When it is on, it travels along a wire. The other end of the wire the electric current can either make a sound or be printed out.
The full Morse code is based on combining dots and dashes to represent the letters of the alphabet.
• A short electric current, a dit, is printed as a dot and a longer dah is printed as a dash.
• See page 48 SAMUEL MORSE
• In the early 1800s, postage in Britain was charged by distance and the number of sheets in a letter. The recipient paid for the postage not the sender.
German teacher Philipp Reis invents a simple telephone. Reis builds just 12 telephones before he dies. One of Reis’s telephones reaches a student at Edinburgh University. That student student is Alexander Graham Bell.
•The TIMELINE continues on page 31.
MORSE CODE
THE INVENTION OF THE POSTAGE STAMP
1860 – First telephone
The main pole of the telegraph was about 20 feet tall.
c 3000 BC
c 2500 BC
c 2000 BC
SUNDIALS For hundreds of years, people have used sundials to tell the time. The sundial’s pointer casts a shadow onto a scale marked on the flat base. The scale shows the hours of the day.
Huygens designed a mechanism that used the swing of a pendulum to control the rotation of weight-driven gearwheels inside the clock. This use of the pendulum had originally been thought of by mathematician Galileo Galilei.
GLASS
CHARIOTS
The Sumerians of southern Mesopotamia invent writing. Mesopotamian texts, still in existence today, range from simple lists to complex stories.
Glass is made by heating sand with limestone and wood ash. The method for making glass is probably discovered by accident.
On the southwestern fringes of the Asia,the lightweight, two-wheeled, two-horse chariot develops. Chariots quickly become war vehicles in civilizations such as Egypt.
• In 1837, retired English schoolteacher Rowland Hill wrote a pamphlet calling for cheap,
GREEK ALPHABET The ancient Greeks use a 24-letter alphabet adapted from the Phoenician alphabet. Each symbol in an alphabet represents a sound rather than a word.
standard postage rates, regardless of distance. • The British Post Office took up Hill’s ideas, and, in May 1840, issued the first adhesive postage stamps. • The stamps were printed with black ink and become known as Penny Blacks.
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JUST THE FACTS Each topic box presents the facts you need in quick-to-read bullet points.
Biographical information: Archimedes was born and worked in the city of Syracuse in Sicily, although he studied at Alexandria, Egypt. He was killed when Roman soldiers conquered Syracuse.
The ‘Archimedes Portrait’ by Domenico Fetti, painted in 1620.
Profession: Mathematician
1400
1455
ROMAN CENTRAL HEATING
CANNON
PRINTING PRESS
The Romans heat using central heating systems called hypocausts. Heat from fires is drawn into an open space under the floor and then rises upward.
In Asia, bamboo-tube guns use gunpowder to shoot arrows. By AD 1400, metal cannons that fire stone cannonballs are in use across Europe.
German Johannes Gutenberg develops movable type and designs and builds the first printing press. In 1455, Gutenberg prints his first book, a Latin bible.
THE ATOMIC CLOCK The atomic clock was invented by English physicist Louis Essen in the 1950s.
In 1943, French explorer Jacques Cousteau and engineer Emile Gagnan connected portable compressed-air cylinders, via a pressure regulator, to a mouthpiece, inventing the aqua-lung. This piece of apparatus gives divers complete freedom to explore the oceans.
• Atomic clocks use the energy changes that take place in atoms to keep track of time. A page from the Gutenberg Bible
1608
1756
1772–1774
TELESCOPE
CHEMISTRY
OXYGEN
STRUCTURE OF WATER
Hans Lippershey invents the telescope. Italian scientist, Galileo, builds his own telescope in 1609 and makes many new astronomical discoveries.
The English scientist Joseph Black discovers the gas carbon dioxide when he notes that a substance in exhaled air combines with quicklime in a chemical reaction.
Two scientists working independently discover oxygen—Swedish chemist Carl Wilhelm Scheele, around 1772, and English chemist Joseph Priestly in 1774.
French chemist AntoineLaurent Lavoisier discovers that water is a chemical combination of two gases (hydrogen and oxygen) that are found in air.
Galileo’s telescope
Cousteau, Jacques
1770S–1780S
• Atomic clocks are so accurate they lose or gain no more than a second once every two or three millions years! The US NBS–4 atomic clock.
Fahrenheit, Daniel In 1714, physicist Daniel Fahrenheit invented the mercury thermometer and devised the Fahrenheit temperature scale. Fahrenheit had also invented an alcohol thermometer in 1709.
Most famous invention: While wondering about how to test if a crown was made of pure gold, Archimedes discovered the principle of buoyancy – if an object is placed
in a fluid, it will displace its own volume of fluid. This is now known as Archimedes’ principle. Eureka moment: Archimedes had the original “eureka” moment. Getting into a bath he noticed that the water rose up the sides. His body was displacing its own volume of water. He raced into the street, without any clothes, shouting, “Eureka” (I’ve found it)!
Biographical information: The son of a musician, Galileo went to the University of Pisa to study medicine, but eventually became a professor of mathematics. During the 1630s, Galileo was arrested and imprisoned by the Catholic Church because of his scientific views.
Eureka moment: Galileo was able to devise a mathematical formula to describe the motion of falling objects. The story that he dropped identical weights of iron and feathers from the Leaning Tower of Pisa may not be true, but Galileo did establish that all objects fall at the same speed, no matter what their weight.
• See page 52 ARCHIMEDEAN SCREW
Other discoveries: Galileo was also interested in astronomy. He did not invent the telescope, but he built his own in 1609. Galileo was able to observe the craters on Earth’s moon, he discovered that Jupiter has four moons, and he was the first person to describe the rings of Saturn.
• See page 18 for more information on Galileo’s life and work.
Most famous invention: Galileo is widely considered to be the founder of modern experimental science. He established the principle that scientific theories should be based on data obtained from experiments.
Leonardo Da Vinci
flight of birds, and the movement of water.
Biographical information: Da Vinci was apprenticed to a sculptor and worked as a painter for the rulers of Florence, Milan, and France. He produced some famous paintings, including the Mona Lisa.
Most famous invention: Leonardo’s notebooks contained drawings and ideas which would not be put into practice for hundreds of years, such as parachutes, canals, armored cars, and submarines.
Da Vinci filled thousands of pages of notebooks with drawings and notes about everything he saw around him. He studied human anatomy, military engineering, the
Eureka moment: Da Vinci showed that by drawing what he imagines, an inventor can inspire future generations to make these visions real.
Franklin, Benjamin American statesman, scientist and writer Benjamin Franklin was fascinated by the discovery of electricity. In 1752, convinced that thunderstorms were electric, he proved it by flying a special kite into a storm. The lightning struck the kite and electricity travelled down the string. Franklin realized that buildings could be protected from thunderbolts if the electricity was conducted through a metal spike on the roof of a building to the ground via a thick wire. Franklin had invented a lightning conductor.
Galilei, Galileo
SIR ISAAC NEWTON 1642–1727 Nationality: English Profession: Mathematician Biographical information: Newton went to Cambridge University in 1661, but his studies were interrupted by an outbreak of plague that closed the university for two years. During this period of forced idleness, Newton did most of his best thinking. In 1667, he was appointed professor of mathematics at Cambridge.
Other discoveries: • A comprehensive theory of light that explained how lenses worked and how white light could be split into colors.
Newton Stories: • Newton is supposed to have thought up the theory of gravitation after watching an apple fall from a tree.
• A system of arithmetic called calculus.
• While studying light, Newton pushed blunt needles into the corners of his eyes to see what effect squashing his eyeballs had on his vision.
• Newton built a reflecting telescope that used a curved mirror to give a better image.
Galileo was so intrigued by the swinging of the incense burner in Pisa’s cathedral, it inspired him to work with pendulums. Galileo measured the time it took to make a complete swing and discovered that it took the same amount of time to get back to where it started, even when the size of the swing changed. Galileo experimented with pendulums for many years, but by the time he thought of using a pendulum’s even swing to keep a clock running smoothly, he was old and totally blind.
Gillette, King C
• Most of his work is contained in his books Principia Mathematica (1687) and Opticks (1704).
Advised by a colleague to invent “something that would be used and thrown away,” Gillette invented the disposable razor blade and new safety razor. Constantly having to buy new blades was not popular with customers, but never having to use a “cut-throat” razor again was! Gillette founded his razor blade company in 1903.
Most famous discovery: Newton is best known for his theory of universal gravitation—that there is an attractive force between all the objects in the universe, and this force is called gravity. Newton used his theory to discover the mathematical laws that govern the motion of every object in the universe. The movement of any object, be it a pick-up truck or a planet, can be explained and predicted by what is known as Newtonian physics.
Halley, Edmond In 1717, English astronomer Edmond Halley invented the first diving bell in which people could stay underwater for long periods. Earlier devices, primarily built for attemps to retrieve sunken treasure, had not been successful. Air was supplied to Halley’s diving bell in barrels with weights to make them sink.
• See page 18 INVENTION OF THE TELESCOPE
Galileo, on an Italian 2000 lire banknote.
A TO Z INVENTORS
Sir Isaac Newton
• See page 18 HALLEY’S COMET
46
7
47
46–51 Inventor Biographies
BIOGRAPHIES ALEXANDER GRAHAM BELL 1847 – 1922 Nationality: Scottish-born American Profession: Teacher and inventor Biographical information: Bell left school at 14 and trained in the family business of teaching elocution (public speaking). His family moved to Canada in 1870. He trained people in his father’s system of teaching deaf people to speak. Most famous inventon: Working at night with his assistant, Thomas Watson, he made the first working telephone in 1876. Inventors at work: The telegraph already used electricity to convey messages over long distances. The telephone had to turn sound into electricity and back again. Making it work was a challenge, which Bell and Watson solved by hard work over many months. Eureka moment: The first words spoken on a telephone were, “Mr. Watson, come here, I want you!” Bell was testing out his newly invented telephone when he spilt some chemicals on his clothes and called to his assistant for help.
THE INVENTION OF DIRECT DIALING • At first, telephone connections were made by operators pushing plugs into sockets. • In 1889, in Kansas City, undertaker Almon Strowger discovered that his local operator was married to a rival undertaker and was diverting his calls to her husband. • Strowger invented the first automatic telephone switch. The remote-controlled switch that could connect one phone to any of several others by electrical pulses.
TELEGRAPH & TELEPHONE TIMELINE 1861 – The pantelgraph The first fax machine is sold. It is called the Pantelgraph.
Throughout this book you will find biographies of famous inventors and scientists detailing all the key facts about their lives and work. You will also find biographies beginning on page 46.
Telegraphs can be sent from one end of America to the other.
TIMELINES
1865 – Public fax The first public fax service opens in France, used to send photographs to newspapers.
1866 – Atlantic cable
Alexander Graham Bell opens the New York to Chicago telephone line in 1892.
The ship, the Great Eastern, lays a second cable along the Atlantic seafloor.
1876 – Bell’s telephone
Important events are listed in chronological order. For fast access to facts in the timelines, look for key words in the headings.
Alexander Graham Bell invents the first successful telephone.
1878 – Thomas Edison American inventor Thomas Edison has also been working on a telephone, but Bell beats him to it. Edison invents a microphone that makes the voice of the person speaking much clearer to the listener.
1876 – Bell’s telephone…
1880 – First pay phone
Bell experimented for many years with different ways of sending and receiving spoken messages. This Gallows Frame transmitter was one of his earliest machines.
MOBILE PHONES AND TEXT MESSAGING 1973 — First mobile call The first call made on a mobile phone is made in April by Dr. Martin Cooper, general manager of Motorola. He calls his rival, Joel Engel, the head of research at Bell Laboratories.
in Japan. It is called the J-Sh04.
August 2001 The first month that over one billion text messages are sent by mobile phone.
1992 — First text The first text message is sent. It is reported that the message, “Merry Christmas,” was from Neil Papworth of Vodaphone.
There are now nine separate cables between America and Britain.
1892 – Direct-dial The first direct-dial telephones become operational.
1915 – First Atlantic call First telephone calls across the Atlantic.
1936 – COAXIAL CABLE The first coaxial cable is laid. This allows many telephone messages to pass along the same cable.
1963 – 160 MILLION The number of telephones in the world reaches 160 million.
2000 — Camera phone
1988 – FIBER-OPTIC CABLE
The camera phone is created by Sharp
VIDEO PHONES • The first videotelephone with a screen for moving pictures was invented by AT&T in 1964. It allowed people to look at the people they were calling.
The first pay-phones opened in New York.
• Using mobile phones to record videos started with the creation of 3G mobile phones by Dr. Irwin Jacobs in 2003.
LINKS Look for the purple links throughout the book. Each link gives details of other pages where related or additional facts can be found.
The first fiber-optic cable is laid across the Atlantic. Now, telephone messages are carried on pulses of light.
• For more information on Edison:
For more information on Edison: • See page 36 EDISON’S PHONOGRAPH • See page 49 THOMAS ALVA EDISON
• See page 36 THE PHONOGRAPH.
31
Captions explain the pictures.
Profession: Mathematician
Nationality: Italian
30
PICTURE CAPTIONS
Nationality: Greek
GALILEO GALILEI 1564–1642
Model of a Mesopotamian wheeled-vehicle, c 2000 BC.
AD 200 PENDULUM CLOCKS In the 1650s, there was a great breakthrough in timekeeping when a Dutch scientist, Christiaan Huygens built the first pendulum clock.
WRITING
In 1742, the Swedish astronomer Anders Celsius invented the Celsius (or centigrade) scale that uses 0° for the freezing point of water and 100° for the boiling point.
Profession: Artist
ARCHIMEDES OF SYRACUSE 287–212 BC
Biro, Ladislao and Georg
c 1000 BC
Nationality: Italian
A
Celsius, Anders
An ancient Egyptian wall carving showing a chariot.
LEONARDO DA VINCI 1452–1519
n inventor is anyone who thinks of something new to make or a new way to make or do something. We do not know the names of most of the inventors who have influenced our lives, or exactly when they made their breakthroughs. But many inventors are famous, and we even know about the ‘eureka moment’ when they had their brilliant idea.
The ballpoint pen was invented in the late 1930s by Hungarian brothers Ladislao and Georg Biro. Although the Biro brothers are credited with the invention of ‘the biro’, a similar writing instrument had been invented in 1888 by US inventor John Loud.
6–11 Inventions Timeline
W
• Chappe’s telegraph used two arms at the top of a tall tower. Ropes and pulleys moved the arms into different positions each representing a letter.
THE WHEEL Wheels are first used in Mesopotamia (modern-day Iraq) as a turntable for making pottery. By 3500 BC, wheels are used on primative vehicles.
• See page 47 GALILEO GALILEI for information on Galileo and pendulums.
hen the American colonies declared their independence in 1776, it took 48 days for the news to cross the Atlantic. The arrival of the telegraph in 1843 and the telephone in 1876 meant that news could get to anywhere in the world almost instantly. The beginning of radio communication in 1896 meant that sounds could travel vast distances without the need for cables. When television arrived in 1936, moving pictures and sounds had the capability to be seen by millions at Wheatstone and Cooke’s the same time anywhere in the world. five-needle telegraph.
• In 1793, France was at war. A quick way to warn of an invasion was needed. In 1794, Claude Chappe invented the telegraph.
MAKING FIRE Neolithic (Late Stone Age) people discover how to make fire by using simple tools fto produce friction and flints to cause sparks.
6
COMMUNICATIONS
CHAPPE’S TELEGRAPH
FIRST FARMERS People discover that domesticating animals, such as sheep and goats, gives a more regular meat supply than hunting. Cultivation of crops, such as wheat and barley, begins.
A flint hand axe, c 250,000
In 1810, French chef and inventor Francois Appert invented the bottling process for storing heatsterilized food. In 1812, he opened the world’s first commercial preserved food factory, initially using glass jars and bottles. In 1822, the factory began using tin-plated metal cans.
c 3500 BC
c 7000 BC
BOWS AND ARROWS Cave paintings from 30,000 BC onwards show Late Stone Age humans using bows and arrows to hunt animals. Hunters also use a variety of snares and traps.
WATER CLOCKS c AD 100 Water ran through this ancient Chinese clepsydra, or water clock, over a set period of time. As each section of the staircase-like timepiece emptied, people knew an exact amount of time had passed.
9000–7000 BC
STONE TOOLS Paleolithic (Early Stone Age) human beings make simple stone tools, like hand axes, by flaking a piece of flint from a large stone then chipping away smaller flakes to create sharp edges for cutting.
THE FIRST CLOCKS Long before there were clocks, people relied on regular, natural events to keep track of time. They worked, ate, and slept according to the rising of the sun. Over time, people invented many ways to track the passing of time.
Appert, Francois
c 30,000 BC
INVENTORS
A TO Z INVENTORS
ver since the Paleolithic people of the Stone Age invented simple tools for digging and cutting, inventions have changed the way human beings live. Our natural curiosity about the world around us has led us to search for more information about our planet and our ancestors. This timeline tracks the last 250,000 years and looks at some of the groundbreaking moments in human history.
UST THE FACTS, INVENTIONS AND DISCOVERIES is a quick and easy-to-use way to look up facts about inventions, inventors, and famous discoveries. Every page is packed with names, places, dates, and key pieces of information. For fast access to just the facts, follow the tips on these pages.
Look for heading words linked to your research to guide you to the right fact box
Tool making dates back even further than this timeline, to Homo habilis, which means handy man, who lived 2 million years ago.
E
• See page 49 THOMAS ALVA EDISON.
GLOSSARY • A GLOSSARY of words and terms used in this book begins on page 58. The glossary words provide additional information to supplement the facts on the main pages.
5
AN AMAZING STORY
Tool making dates back even further than this timeline, to Homo habilis, which means handy man, who lived 2 million years ago.
E
ver since the Paleolithic people of the Stone Age invented simple tools for digging and cutting, inventions have changed the way human beings live. Our natural curiosity about the world around us has led us to search for more information about our planet and our ancestors. This timeline tracks the last 250,000 years and looks at some of the groundbreaking moments in human history.
c 250,000
What secrets are still to be discovered about our planet and our ancestors?
c 30,000 BC BOWS AND ARROWS
FIRST FARMERS
MAKING FIRE
THE WHEEL
Paleolithic (Early Stone Age) human beings make simple stone tools, like hand axes, by flaking a piece of flint from a large stone then chipping away smaller flakes to create sharp edges for cutting.
Cave paintings from 30,000 BC onwards show Late Stone Age humans using bows and arrows to hunt animals. Hunters also use a variety of snares and traps.
People discover that domesticating animals, such as sheep and goats, gives a more regular meat supply than hunting. Cultivation of crops, such as wheat and barley, begins.
Neolithic (Late Stone Age) people discover how to make fire by using simple tools fto produce friction and flints to cause sparks.
Wheels are first used in Mesopotamia (modern-day Iraq) as a turntable for making pottery. By 3500 BC, wheels are used on primative vehicles.
c 3000 BC
c 2500 BC
c 2000 BC
A flint hand axe, c 250,000
SUNDIALS For hundreds of years, people have used sundials to tell the time. The sundial’s pointer casts a shadow onto a scale marked on the flat base. The scale shows the hours of the day.
WATER CLOCKS c AD 100 Water ran through this ancient Chinese clepsydra, or water clock, over a set period of time. As each section of the staircase-like timepiece emptied, people knew an exact amount of time had passed.
Water clock CANDLE CLOCKS c AD 800 When candles were used for telling the time, they were often divided up into sections that each took an hour to burn.
PENDULUM CLOCKS In the 1650s, there was a great breakthrough in timekeeping when a Dutch scientist, Christiaan Huygens built the first pendulum clock. Huygens designed a mechanism that used the swing of a pendulum to control the rotation of weight-driven gearwheels inside the clock. This use of the pendulum had originally been thought of by mathematician Galileo Galilei.
An ancient Egyptian wall carving showing a chariot.
c 1000 BC GREEK ALPHABET
WRITING
GLASS
CHARIOTS
The Sumerians of southern Mesopotamia invent writing. Mesopotamian texts, still in existence today, range from simple lists to complex stories.
Glass is made by heating sand with limestone and wood ash. The method for making glass is probably discovered by accident.
On the southwestern fringes of the Asia,the lightweight, two-wheeled, two-horse chariot develops. Chariots quickly become war vehicles in civilizations such as Egypt.
The ancient Greeks use a 24-letter alphabet adapted from the Phoenician alphabet. Each symbol in an alphabet represents a sound rather than a word.
1400
1455
THE ATOMIC CLOCK
ROMAN CENTRAL HEATING
CANNON
PRINTING PRESS
The Romans heat using central heating systems called hypocausts. Heat from fires is drawn into an open space under the floor and then rises upward.
In Asia, bamboo-tube guns use gunpowder to shoot arrows. By AD 1400, metal cannons that fire stone cannonballs are in use across Europe.
German Johannes Gutenberg develops movable type and designs and builds the first printing press. In 1455, Gutenberg prints his first book, a Latin bible.
Model of a Mesopotamian wheeled-vehicle, c 2000 BC.
AD 200
• See page 47 GALILEO GALILEI for information on Galileo and pendulums.
6
c 3500 BC
c 7000 BC
STONE TOOLS
THE FIRST CLOCKS Long before there were clocks, people relied on regular, natural events to keep track of time. They worked, ate, and slept according to the rising of the sun. Over time, people invented many ways to track the passing of time.
9000–7000 BC
The atomic clock was invented by English physicist Louis Essen in the 1950s. • Atomic clocks use the energy changes that take place in atoms to keep track of time. A page from the Gutenberg Bible
1608
1756
1772–1774
TELESCOPE
CHEMISTRY
OXYGEN
STRUCTURE OF WATER
Hans Lippershey invents the telescope. Italian scientist, Galileo, builds his own telescope in 1609 and makes many new astronomical discoveries.
The English scientist Joseph Black discovers the gas carbon dioxide when he notes that a substance in exhaled air combines with quicklime in a chemical reaction.
Two scientists working independently discover oxygen—Swedish chemist Carl Wilhelm Scheele, around 1772, and English chemist Joseph Priestly in 1774.
French chemist AntoineLaurent Lavoisier discovers that water is a chemical combination of two gases (hydrogen and oxygen) that are found in air.
Galileo’s telescope
1770S–1780S
• Atomic clocks are so accurate they lose or gain no more than a second once every two or three millions years! The US NBS–4 atomic clock.
7
THE INVENTION OF PRINTING
1794
1796
1822
1824
1825
COTTON
VACCINATION
MECHANICAL COMPUTER
BRAILLE
FIRST RAILWAY
Charles Babbage, an inventor and professor of mathematics, conceives the first mechanical computer.
Frenchman Louis Braille invents an alphabet tthat made use of rasied symbols that can be written and read by the blind. The alphabet has 63 characters.
The first railway in the world to carry freight and passengers using steam traction, the Stockton and Darlington Railway,, begins operation on September 27, in England.
1876
1877
1882
CELLS
THE TELEPHONE
THE PHONOGRAPH
FIRST POWER STATION
In 1838, German botanist Matthias Schleiden discovered that of cells. In 1839, Schleiden’s friend, physiologist Theodor Schwann, proves that animals are also made up of cells.
In March, Scottish-born American inventor Alexander Graham Bell is granted the patent for the telephone, a device that transmits speech sounds over electric wires.
American inventor Thomas Edison invents the phonograph and records himself reciting the nursery rhyme, “Mary had a little lamb.”
Thomas Edison supervises the laying of mains and installation of the world’s first power station in New York City. It becomes operational in September.
British doctor Edward Jenner develops the process of vaccination and successfully vaccinates a small boy against smallpox, a devastating disease in this period.
In the USA, Eli Whitney patents the cotton gin, a machine that combs the seeds out of cotton after it has been harvested.
Slaves work at a Whitney cotton gin.
1403 — First metal font Korean King Htai Tjong has the first true font of metal type made. One hundred thousand bronze characters are cast.
Cai Lun (Ts’ai Lun) conceived the idea of forming sheets of paper from macerated tree bark, hemp waste, rags, and fishnets (c 100 BC) .
Without the invention of paper and printing, it would not have been possible to create this book! c 1770 BC — Minoan printing The Minoans invent the first known printing method. They use a writing system of 45 symbols, which are punched into a disk of clay before baking it.
c 200 BC — Punctuation Punctuation came from Greek and Latin. Aristophanes of Byzantium, a librarian at the Library of Alexandria, is the first person to use punctuation. Early Greek writers did not even use spaces between words!
1455 — First movable type German Johann Gutenberg invents a technique for mass-producing individual metal letters. The text is assembled letter by letter to make up a page. Then, oil-based ink is applied to the paper. The type is then reassembled for the next page.
1464 — Roman type German printers Adolf Rusch, in 1464, and Sweynheim and Pannartz in 1465, seeking to avoid the heavy, spiky letters of early type, use a “roman” type, the forerunner of the type this book is printed in.
1838–1839
The Locomotion pulled 28 coal-filled wagons on the new railway line.
An animal cell
1900
1901
1903
FINGERPRINTING
MARCONI’S MESSAGE
FIRST FLIGHT
British scientist Francis Galton and police officer Sir Edward R. Henry devise a system of fingerprint classification that they publish in June. The Galton-Henry system is used in the UK for criminal identification starting in 1901.
Italian physicist, Guglielmo Marconi creates a worldwide sensation when he successfully sends a radio message across the Atlantic Ocean on December 12. The message is dot dot dot, Morse code for the letter S.
The Wright brothers achieve the world’s first powered flight with their “Flyer” biplane on December 17. The flight covers 120 feet and lasts just 12 seconds.
Wilbur and Orville Wright
A fingerprint
1908
1913
1926
THE MODEL T
ATOMIC STRUCTURE
TELEVISION
The first Model T car is produced by the Ford Motor Company. Revolutionary production methods will see 15 million Model T cars roll off the Ford assembly line over the next 19 years.
Danish physicist Niels Bohr proposes his theory of atomic structure—that an atom consists of a nucleus surrounded by a cloud of orbiting electrons arranged in a series of concentric shells.
British television pioneer, John Logie Baird, demonstrates a television system. He presents fuzzy moving pictures of a face.
1927
1941
1943
EXPANDING UNIVERSE
PLUTONIUM (Pu)
COLOSSUS
Studying galaxies outside of the Milky Way, Edwin Hubble discovers that the galaxies seem to be moving away from the Milky Way. This leads to the theory that the universe is expanding.
The synthetic, radioactive element plutonium is made at Berkeley, California, by a team of scientists. Plutonium is used as an ingredient in nuclear weapons and as a fuel in some types of nuclear reactors.
During World War II, Alan Turing and a team of British scientists secretly build Colossus, one of the first electronic computers, to decipher top secret messages created by the German Enigma coding machine.
c 100 BC — Invention of paper Cai Lun (Ts’ai Lun), a Chinese court official, is credited with the invention of paper.
c AD 350 — First book Books with pages become the standard way of storing words.
c AD 600 — Block printing Paper is pressed onto blocks on that text has either been carved or handwritten.
• See page 48 JOHANNES GUTENBERG
8
An expanding universe?
THE INVENTION OF PHOTOGRAPHY Thanks to the invention of photography, this book is filled with photographs of inventors and their inventions.
later transparent celluloid. Exposure time is less than one second.
1888 – Kodak camera Eastman launches the Kodak camera, which produces circular images.
1841 – First color film 1826 – First photograph In France, Joseph Niepce produces the world’s first true photograph (as opposed to shadowgraph). The exposure time is about 8 hours.
1839 – Daguerreotype system In France, Louis Daguerre demonstrates his daguerreotype system that produces a single positive image on a sheet of copper. Exposure time is 30 minutes.
In France, Auguste and Louis Lumière produce the first film for color transparencies.
1942 – First color prints In Germany, the Agfa Company produces the first film for color prints.
1946 – Instant prints In the USA, Edwin Land introduces a camera that makes instant prints.
1841 – Negatives In England, William Talbot patents his calotype process that produces a negative image from which numerous positive copies can be made. Exposure time is 2–3 minutes.
1851 – Glass plates In England, Frederick Archer introduces glass plates for photography. Exposure time is a few seconds.
1874 – Film roll In the USA, George Eastman develops roll film, first using paper,
A Daguerreotype camera.
• See page 49 GEORGE EASTMAN
9
Archaeologists can determine the age of this Egyptian mummy by using Willard F. Libby’s discovery of the carbon dating process.
NUCLEAR POWER FISSION Fission is the process by which the nucleus of an atom is split in two releasing a large amount of energy. The fission of uranium atoms was first observed in the late 1930s. CHAIN REACTION On December 2, 1942, a team of scientists led by Enrico Fermi achieved the first controlled nuclear fission chain reaction. MANHATTAN PROJECT During World War II, a team of scientists in the USA worked on the top-secret Manhattan Project to design and build atom bombs. The first bomb was tested at Alamogordo Air Base, New Mexico on July 16,1945. In the following month, two atom bombs were dropped on the Japanese cities of Hiroshima and Nagasaki. NUCLEAR ELECTRICITY Uranium fission can be contained and controlled inside a reactor to produce heat for generating electricity. The first atomic power station making electricity for homes and businesses began operation in 1956 in England.
• See page 51 ENRICO FERMI.
10
1946–1947
1947
1952
1967
CARBON DATING
THE TRANSISTOR
DNA DISCOVERIES
FIRST HEART TRANSPLANT
Willard F. Libby discovers that the unstable carbon isotope C14 decays over time to the more stable C12. This means that once-living things can be dated by the amount of C14 compared to C12 left in it.
William B. Shockley, John Bardeen, and Walter H. Brattain, invent the transistor— the device that will advance electronics and allow for the miniaturization of computer circuitry.
American biochemists Alfred Hershey and Martha Chase demonstrate that DNA transmits genetic information. In 1953, Crick and Watson unlock the structure of DNA.
On December 3, a team, led by South African heart surgeon Christiaan Barnard, performs the world’s first heart transplant in Cape Town, South Africa. The patient lives for 18 days.
1974
1975
SUPERSONIC AIRLINER
LUCY
MICROSOFT
On March 2, the Concorde, a passenger aircraft capable of flying at twice the speed of sound, makes its first test flight piloted by chief test pilot Andre Turcat.
Donald Johanson and Tom Gray discover the most complete Australopithecus skeleton ever found during excavations in northern Ethiopia. Nicknamed Lucy, this early hominid lived 3.2 million years ago.
Bill Gates and Paul Allen start Microsoft. The company creates the operating system MS-DOS and Windows. These programs will eventually be used on almost every PC in the world.
Concorde
Place Value The use of “0” for zero dates from c AD 500. This marks the emergence of the decimal system we use.
Decimal fraction Though used in China in c AD 200 these were not developed in other parts of the world until c 1300–1400.
DNA
1969
DEVELOPMENTS IN MATHEMATICS
Algebra The word algebra comes from a book by Al-Khwarizmi, an Arab mathematician who lived c AD 780–850. The most famous algebraic equation is Einstein’s:
Bill Gates
E=mc 2 Imperial measures
1983
1984
1991
1996
Standard Imperial Units of distance (for example, the mile) were set by Queen Elizabeth I in 1592.
HIV VIRUS
DNA PROFILING
WORLD WIDE WEB
DOLLY THE SHEEP
The HIV virus that causes AIDS is identified by French scientist Luc Montagnier and a team working at the Pasteur Institute in Paris.
Alec Jeffreys invents DNA profiling, a method of analyzing DNA to produce a set of characteristic features that are unique to each individual. The process can be used to identify criminals.
Invented by British computer scientist Tim Berners-Lee in 1989, the World Wide Web is launched to the world via the Internet.
A team of scientists working at the Roslin Institute in Scotland succeed in producing the first ever cloned mammal, Dolly, a sheep, on July 5.
Statistics Beginning around 1654, Blaise Pascal, a French mathematician, began to work on a theory of probability (the chance of something happening).
Metric measures
World Wide Web
Alec Jeffreys
The meter, liter, and gram were adopted by the French in 1795.
Pythagoras’ theorem
2000
Pythagoras lived c 580–500 BC. His theorem says that the square drawn using the longest side of a right angle triangle is equal in area to the sum of the areas of the triangles on the other two sides. This theorem is used in navigation, maps, building, and land measurement.
HUMAN GENOME DRAFT A first draft of the human genome is published after more than 10 years of intensive effort. It consists of some three billion pairs of nucleotide bases divided into thousands of separate genes.
Dolly the sheep
A hydrogen bomb (more powerful than an atom bomb) was first tested by the US in 1951.
2003
2004
THE HUMAN GENOME
A NEW PLANET
Human Genome Project completes the task of reading the human genome. The human genome is the set of instructions to build the body contained inside every cell.
On March 15, NASA announces the discovery of Sedna, possibly a new planet. Its diameter is 110 miles.
c b
a
Sedna takes over 10,000 years to orbit the sun. Many scientists do not yet agree that Sedna is a planet.
11
I N V E N T I O N TIMELINE c 35,000 BC – Advanced stone tools Burins, engraving tools made from a flint with a sharp edge, are used to decorate bone and wooden items. Wooden handles are attached to stone tools for the first time making it possible to hit things harder and to increase the amount of swing achieved with a tool, such as an axe.
EARLY INVENTORS
O
ver thousands of years, early human beings invented and discovered ways to make their lives more efficient. They developed farming to ensure a regular supply of food, and they devised tools and simple machines to make work easier. They also conceived ways of recording their lives, such as painting and writing, without which it would be impossible to chart the history of human invention and discovery.
c 9000 BC – First ovens The first known ovens, stone or clay chambers heated by a fire, are in use in Jericho in ancient Palestine.
c 8000 BC – Flint mining
5000 BC — Scratch plow
AD 800 — Crop rotation
The wooden scratch plough is used for breaking up the soil. The scratch plows are probably pulled by donkeys.
In northeastern France, the crop rotation system is developed. One field is planted in autumn with winter wheat or rye; the second field is planted the following spring with barley, peas, or oats (to feed horses); the third field is left fallow. This allows more of the field to be cultivated and improves the soil.
4000 BC — Sickle Bone-handled sickles with a flint blade are used to reap wheat and barley.
3000 BC — Shaduf
c 7000 BC – Flax and linen The flax plant is cultivated for its fibers that can be used to make ropes and linen.
The discovery that there are male and female plants makes it easier to select crops for size, taste, and diseaseresistance by artificial pollination.
c 6000 BC – Axe heads
AD 500 — Three-piece plows
c 5500 BC – Weaving The weaving of baskets develops: split bamboo is used in China, straw and flax in the Middle East, and willow in Europe.
c 5000 BC – Leather
Egyptians use a shaduf (a bucket on a weighted pole) to lift water from irrigation canals to water their crops.
2000 BC — Pollination
Heavy, iron, three-piece plows come into use. They usually have wheels and are pulled by large farm horses. The plow helps farmers to work heavier soils and plow faster.
AD 500 — Horse collar The creation of the horse collar enables a horse to pull a heavy plough without choking.
Animal are dried and preserved using substances, such as urine.
c 5000 BC – Grindstones Grindstones, two stones that fit together, are used to crush cereal grains. This produces flour that is easier to digest than whole grains.
• See page 6 STONE TOOLS • The TIMELINE continues on page 13.
12
Ancient paintings dating to around 30,000 BC have been found in caves in western Europe. Prehistoric artists invented painting using paint made from minerals, such as chalk and red iron oxide. They made simple brushes made from chewed twigs or animal hair and lamps that burned animal fat to light the dark interiors of the caves where they worked.
I N V E N T I O N TIMELINE c 4000 BC – Scales Simple scales (a length of wood or metal balanced with pans hung from each end) are developed in Mesopotamia.
C 4000 BC – Gold/silver Gold and silver are discovered. They are used for making ornaments and as a means of exchange for goods or service.
EARLY FARMING INVENTIONS AND DISCOVERIES
When people can no longer find enough flints on the ground around them for tool-making, they begin to mine or dig for stones under the surface.
Stones are shaped to create axe heads with straight, sharp edges and heavy bases.
THE FIRST WRITING The Sumerians (who lived in what is now southern Iraq) had invented writing by around 3000 BC. They used a piece of reed to make cuneiform symbols (wedge-shaped marks) in clay tablets. Then, they baked the tablets to harden them.
THE INVENTION OF PAINTING
c 3500 BC – Bricks
c 30,000 BC – Rope Rope made from plant fibers is used for making nets and snares for catching animals.
THE INVENTION OF WRITING
• See page 7 FIRST FARMERS
The artworks in the Lascaux caves in France (above) have been dated to around 15,000 BC.
HIEROGLYPHS The ancient Egyptians also developed writing soon after 3000 BC. They used hundreds of pictures, called hieroglyphs, to represent words and sounds. They carved inscriptions on temple walls, painted on the walls of tombs, and wrote on papyrus paper.
AD 900 — Horseshoe The horseshoe enables horses to pull ploughs for longer periods.
COPPER 8000–6500 BC The discovery of copper gives early human beings a practical substitute for stone. Copper is easy to shape.
used to make weapons and decorative items. IRON 2000 BC Iron is extracted from iron ore (stone containing iron) by heating the ore in red-hot charcoal. Iron is hard to melt, so early metalworkers develop new techniques such as hammering hot iron into the required shape.
The Mesopotamian potters invent the potter’s wheel. This wheel uses a slowly spinning stone wheel to produce pots with a uniform shape.
The ancient Egyptians use chairs with padded seats and four legs. (Ancient people had probably used many objects to sit on before this time, but chairs as we recognize them today have been found in ancient Egyptian tombs from this period.)
Mesopotamian craftsmen begin to produce wheels with a rim, hub, and spokes instead of the heavy, solid plank-wheels previously used.
c 1500 BC – Flags
A Mesopotamian vase from 3400–3200 BC.
The rotary quern is invented. For over 4000 years, corn has been ground by hand using two stones. The rotary quern is a circular stone that fits into a stone base. The top stone is turned by a wooden handle crushing the grain between the two stones. It is also known as a hand mill.
The ancient Egyptians invented papyrus, a type of paper made from papyrus reeds that grew by the River Nile. Fibers from the reeds were squashed together into flat sheets and dried in the sun.
Flags are invented in China and used in battles. If a leader’s flag is captured by the enemy, it means the enemy has won the battle.
c 600 BC – Rotary querns
PAPYRUS PAPER
• See page 6 THE GREEK ALPHABET
c 2600 BC – Chairs
c 2000 BC – Wheel spokes
Thin layers of colored clay, called slip, and natural pigments, such as red ochre, are used to decorate pottery. Examples of this innovation have been found in the ancient city of Catal Huyuk (now Cumra in Turkey).
4000–3000 BC
Cotton fabric is invented. People of the Indus Valley (modern-day Pakistan) discover that the silky fibers attached to the seeds of the cotton plant can be woven into a fine fabric.
Ink for writing is made from soot mixed with glue. Mirrors made from discs of polished bronze or copper are used in ancient Egypt.
c 6500 BC
CHINESE PICTOGRAMS The ancient Chinese began writing around 1700 BC. They used a different pictogram (symbol) to represent each word. There were thousands of pictograms.
c 3000 BC – Cotton
c 2500 BC – Ink/mirrors
The first potters discover they can make useful containers by shaping soft clay by hand, then heating it in a fire to bake it hard.
This ancient Egyptian wooden model dates to around 2000 BC. It shows a farmer using a simple scratch plough pulled by oxen.
LEAD 6500 BC Early metalworkers extract lead by heating lead ore in a hot fire. Decorative lead beads found in Turkey suggest that lead was considered a precious material. BRONZE 3500 BC Ancient metalworkers melt copper and tin together and create a new metal, called bronze. This new material is
INVENTION OF POTTERY c 13,000 BC
DISCOVERING AND INVENTING METAL Archaeologists study metal artifacts to determine when ancient civilizations first discovered metals such as bronze and iron.
LASCAUX CAVE PAINTINGS Caves containing over 2000 prehistoric paintings and engravings. Discovered: September 12, 1940 Discovered by: Marcel Ravidat, Jacques Marsal, Georges Agnel and Simon Coencas, four teenage boys exploring in woods near Montignac in France. The discovery:
In the Middle East, bricks are made from clay, then fired in a kiln to make them hard and waterproof. Prior to this, bricks were made from mud and straw, but they sometimes melted in heavy rain.
A papyrus reed
13
TIMELINE 1600 – Earth’s magnetism William Gilbert, Elizabeth I’s physician, realizes that the properties of naturally magnetic minerals, which are already used as rudimentary compasses, reflect the magnetic field of Earth.
1669 – Stratigraphy Nicolaus Steno establishes the laws of stratigraphy. Stratigraphy demonstrates that rock beds laid down horizontally, stacked on one another and subsequently contorted.
1735 – Classification Linnaeus establishes the binomial classification of living things, giving each living thing a genus and a species name, for example Homo sapiens, and classifying them on how closely they are related.
1760 – Early geology Giovanni Arduino classifies the geological column: Primary with no fossils, Secondary deformed and with fossils, Tertiary horizontal and with fossils, and Quaternary loose sands and gravels over the rest. This is basis of modern classification.
1768 – James Cook James Cook’s voyages to Tahiti, New Zealand, Australia, and later Antarctica bring an awareness of the range of plants and animals around the world.
NATURAL WORLD
H
uman beings have searched to know more about their origins and Earth. Today, we know our planet is 4.5 billion years old, not the 74,832 years proposed by the French scientist Buffon in 1778. Paleontologists have discovered and identified the first animals that lived on Earth. Anthropologists have studied the fossils of our earliest ancestors. Scientists have discovered that all plants and animals are made from cells; we now know that DNA within those cells is the blueprint for all living things.
DISCOVERING THE DINOSAURS DINOSAUR FOSSILS • In the 1820s, Mary Anning began a career as a professional fossil collector on the shores of Lyme Regis in England. Anning supplied scientists of the period with their fossils. During her career, she discovered the fossils of plesiosaurs, ichthyosaurs, and the first pterosaur.
A Megalosaurus jawbone
1790s – Dating rocks Canal engineer William Smith notes that different rock strata contain different types of fossils. He compiles the first geological map (of Great Britain) in 1815, and pioneers the science of dating rocks by their fossils.
1837 – Ice Age Swiss scientist Louis Agassiz detects the Ice Age by observing landforms across Europe, from Edinburgh to Switzerland, that must have been formed when ice caps moved over the area.
1866 – Heredity Austrian monk Gregor Mendel establishes the laws of heredity. Both parents provide the features for their offspring, but some features are stronger than others, and the chances of particular features being passed on can be calculated. He has actually discovered genes.
14
Fossil hunter William Buckland (1784–1856)
This illustration of an ichthyosaur is based on fossil finds.
CONTINENTAL DRIFT
• Scientist Charles Darwin was intrigued by the variety of bird species he observed in the Galapagos Islands.
The discovery: The remains of a skull cap and some teeth with features similar to those of both apes and humans. Found in caves in Java, Indonesia. Nicknamed “Java man.” Discovered by: Dutch paleontologist, Eugene Dubois in 1891.
• In 1912, German meteorologist Alfred Wegener proposed that the world’s continents were once joined together in a single, large landmass he called Pangaea.
• In 1837, when ornithologist John Gould showed that the islands’ birds were all closely related finches, despite their differences, it led Darwin to suggest that the various forms had evolved from a single species. • In 1859, Darwin published On the Origin of Species, a book presenting the theory that animals and plants have not always looked the way they do today, but have evolved from earlier forms, and are still evolving.
1869 – DNA discovered
THE FIRST DINOSAUR • Fossils of a jawbone and teeth were found in Oxfordshire, England, around 1815.
• In 1822, Buckland’s colleague James Parkinson named the creature Megalosaurus, meaing big lizard.
An Archaeopteryx fossil
HOMO ERECTUS
• Over millions of years, the individual continents had drifted apart, but it is still possible to see how they may have fitted together. Africa
South America Homo erectus skull
Discovery fact: The first known fossils to be discovered of homo erectus. • See page 11 LUCY (1974)
Swiss graduate chemist Johann Miescher identifies a particular substance, deoxyribonucleic acid (DNA), in the nuclei of white blood cells. The importance of this discovery goes unnoticed for more than 50 years.
1929 – DNA molecule In the USA, Russian-born chemist Phoebus Levene establishes that the DNA molecule is composed of a series of nucleotides. Each one is composed of a sugar, a phosphate group, and one of four bases: thymine (T), guanine (G), cytosine
(C), and adenine (A).
1950 – Base pairs In the USA, biochemist Erwin Chargaff discovers that the bases are arranged in pairs, and that the composition of DNA is identical within species, but differs between species.
1952 – Genetic code Two American scientists, Alfred Hershey and Martha Chase, conduct an experiment proving that the DNA molecule is how genetic information is transmitted.
TIMELINE 1902 – Chromosomes American surgeon Walter Sutton discovers the chromosome theory of inheritance. He believes that Mendel’s features were controlled in living cells by structures called chromosomes. The chemical messages encoded in the chromosomes are the genes.
1909 – Burgess Shale American paleontologist Charles Walcott discovers the Burgess Shale fossil site in Canada’s Rocky Mountains. Dating from the Cambrian period, it contains thousands of fossils of marine animals.
1927 – Big Bang
• Wegener’s discovery of continental drift was finally accepted by scientists in the 1960s.
THE STORY OF DNA
• William Buckland studied the fossils that he believed were from a large, meat-eating reptile.
INVENTING DINOSAURS • In 1842, English scientist Sir Richard Owen invented the term dinosauria to describe the Megalosaurus and two other fossil animals, Iguanodon and Hylaeosaurus, found at the time. THE FIRST BIRD • In 1860, 1861, and 1877, the fossils of a single feather and of two birds were discovered in the same Jurassic limestone quarry in Solnhofen, Germany. The bird was named Archaeopteryx. It seemed to be a transition form between dinosaurs and birds.
CHARLES DARWIN
Belgian priest Georges Lemaitre proposes a forerunner of the Big Bang theory: that the universe began with the explosion of a primeval atom.
1953 – Age of the Earth Fiesel Houtermans and Claire Patterson use radiometric dating to date the Earth at 4.5 billion years old.
1952 – DNA analysis
1963 – Plate tectonics
In England, scientists Maurice Wilkins and Rosalind Franklin analyze the DNA molecule using X-rays.
Fred Vine and Drummond Matthews discover seafloor spreading. This leads to the establishment of plate tectonics.
1953 – Shape of DNA
1964 – Big Bang
Wilkins’ and Franklin’s results enable the shape of the DNA molecule to be determined by Frances Crick and James Watson.
Arno Penzias and Robert Wilson detect cosmic radiation (radiation coming from space) and use it to confirm the Big Bang Theory.
1965 – Cell proteins American biochemist Marshall Nirenberg deciphers the genetic code through which DNA controls the production of proteins inside body cells.
1980 – Dinosaur extinction
1983 – Polymerase chain reaction
Scientists of the British Antarctic Survey discover the depletion of ozone in the upper atmosphere.
American researcher Kary Mullis invents the polymerase chain reaction (PCR), a laboratory process that enables scientists to duplicate small sections of the DNA molecule many millions of times in a short period of time.
• See page 51 FRANCIS CRICK AND JAMES WATSON • See the GLOSSARY for scientific terms used in this timeline.
Luis and Walter Alvarez put forward the asteroid impact theory of dinosaur extinction.
1985 – Ozone depletion
1991 – Asteroid impact Chicxulub crater in Yucatán is pinpointed as the site of the asteroid impact that caused dinosaur extinction.
• See the GLOSSARY for explanations of many of the scientific terms used in this timeline.
A DNA molecule
15
E L E M E N T S TIMELINE 1766 – Hydrogen (H) In England, chemist Henry Cavendish discovers hydrogen, a gas, that he names phlogiston, meaning inflammable air.
1772 – Nitrogen (N) Daniel Rutherford, a medical student in Scotland, is the first to publish details of a new gas. The gas is named nitrogen in 1790.
SCIENCE ALL AROUND
S
cience is the close observation of nature. Although many scientists now use sophisticated equipment such as lasers and hadron colliders, their basic technique is the same as taught in every school science class: observe, investigate, understand, and describe. Potential new discoveries are all around us. For example, an amazing new form of carbon that scientists had previously thought impossible was recently discovered in some dirty residue that had built up around an old electric lamp.
1794 – Yttrium (Y) Finnish chemist Johan Gadolin isolates a rare mineral that contains yttrium. This element gets its name from Ytterby, Sweden.
1807 – Potassium (K) In England, scientist Humphry Davy discovers potassium, a new metal, when he applies electricity to a molten mixture of chemicals.
THE PERIODIC TABLE
A NEW CARBON
In 1869, Russian chemist Dmitri Meldeleev discovered that the elements can be placed in ascending sequence of atomic size, arranged across a periodic table of rows and columns. Elements with similar physical or chemical properties are located near to each other.
In 1985, three university professors jointly discovered new form of the carbon molecule.
1894 Argon (AR) English scientists John Strutt (Lord Rayleigh) and William Ramsay discover the gas argon.
1886 – Germanium (GE) In Germany, chemist Clemens Winkler discovers the element germanium, which had been predicted by Mendeleev in his 1869 periodic table.
1910 – Titanium (TI) In the USA, metallurgist Matthew Hunter is the first to produce the element titanium in the form of a pure metal.
• See page 12 DISCOVERING AND INVENTING METAL
16
THE FIRST LASER In 1960, scientist Theodore Maiman built the first laser (Light Amplification by Stimulated Emission of Radiation). It used a rod-shaped crystal of synthetic ruby to produce a very bright, very narrow beam of light. Gas lasers were invented a few months after the ruby laser.
LASERS ALL AROUND Today, tiny semiconductor devices smaller than a pinhead produce the laser light that reads the digital information encoded onto CDs and DVDs.
1954 – GENETIC CODE
1825 – Aluminium (A)
Astronomers Pierre Janssen and Norman Lockyer independently identify a new element, helium, in the atmosphere of the Sun.
LASER BEAMS ON THE MOON In the 1970s, lasers were used to measure the exact distance between the Earth and the moon. The narrow beam of a laser was bounced off reflectors which had been put on the moon’s surface by Apollo astronauts.
• See page 14 TIMELINE for Gregor Mendel’s discovery of heredity.
The French chemist Bernard Courtois accidentally adds too much acid to a batch of seaweed in his father’s saltpeter factory and discovers iodine.
1868 – Helium (He)
WHAT IS A LASER? In a laser, a crystal or gas is energized so that its atoms start to emit light. The light produced by a laser is of nearly uniform wavelength and the light rays are almost perfectly parallel so that there is very little spreading of the beam.
An experiment showing an intense ruby laser beam penetrating two prisms.
THE STORY OF GENETIC ENGINEERING
1811 – Iodine (I)
Danish physicist Christian Orsted succeeds in producing a solid lump of aluminium.
LASERS
Meldeleev’s original periodic table had gaps that predicted the existence of undiscovered elements. These gaps have since been filled.
THE INVENTION OF THE MICROSCOPE THE FIRST MICROSCOPE In the Netherlands, in 1668, Anton van Leeuwenhoek constructed the first working microscope. It had a small, convex lens and could magnify around 200 times the original size. The entire instrument was only 4 inches long. The user held it up to the eye.
VAN LEEWENHOEK’S MICROSCOPE Single, tiny lens Specimen is placed on sharp point Focus adjusted by turning screws.
DISCOVERING BACTERIA In 1674, Van Leeuwenhoek was the first person to observe protozoa from ponds. In 1676, he examined bacteria from his own mouth.
• See page 52 INVENTORS AT WORK for more microscope inventions.
Instead of just four atoms, like other forms of carbon, it has 60 atoms arranged in a hollow, multisided, geometric shape. The new substance, which is incredibly strong for its weight, has been named buckminsterfullerene, and the hollow shapes are known as buckyballs.
HIGH ENERGY COLLISIONS To study the structure of atoms, scientists build massive devices that use magnetism to accelerate bits of atomic nuclei so that they crash into each other at very high speed and break apart. The first such device, called a cyclotron, was built in the USA in 1933. The latest device, known as a Large Hadron Collider, is located on the border between France and Switzerland.
Russian physicist George Gamow is the first to suggest that the DNA bases T, G, C, and A form a genetic code that looks like CGCTGACATCGT, etc.
1966 – FROG CLONING In England, biologist John Gurdon clones frogs from cells taken from the intestines of a tadpole.
MAKING DOLLY THE SHEEP • The nucleus was removed from an unfertilized egg. • Next, a cell from an adult sheep was fused with the egg by passing an electric current through the two.
The adult sheep to be cloned
1971 – RESTRICTION ENZYMES
1994 – GM CROPS
In the USA, molecular biologists Daniel Nathans and Hamilton Smith discover restriction enzymes that can be used to cut the DNA molecule into short strands.
In the USA, a rot-resistant tomato becomes the first genetically modified (GM) crop to be approved for sale to the public.
1972 – RECOMBINANT DNA
In Scotland, a team of scientists led by Ian Wilmut succeed in producing Dolly the sheep, the world’s first cloned mammal.
American scientist Patrick Berg succeeds in splicing together strands of DNA to produce recombinant DNA (DNA that has been recombined from a number of different strands). This marks the beginning of true genetic engineering.
• They became one cell which then behaved like a fertilized egg and began to divide. • Finally, the cell was implanted into another female sheep where it developed normally into an embryo.
Cells are removed from the adult sheep
1996 – CLONED MAMMAL
Dolly the cloned sheep had no immediate practical value, but the cloning technique is vital. If, for example, scientists can genetically engineer a cow to produce milk that contains life-saving drugs, then they can use the cloning technique to make thousands of identical cows.
• See page 15 THE STORY OF DNA • See the GLOSSARY for scientific terms used in this timeline.
The new cell starts to divide like a normal cell
ELECTRICITY TIMELINE 1800 – First battery Italian physicist Alessandro Volta invents the first electric battery. It uses chemical reactions to produce an electric current.
1807 – Electrolysis English scientist Humphry Davy invents the process of extracting metals from minerals by electrolysis. He heats the minerals to melting point and then applies an electric current to extract the metal.
1820 – Ampere’s Law French scientist Andre Ampere experiments with magnets and electricity and discovers the mathematical relationship between magnetism and the flow of electrical current.
1827 – Ohm’s law In Germany, the physicist Georg Ohm discovers the relationship between resistance and current in an electrical circuit.
1831 – Induction English scientist Michael Faraday discovers the laws of induction that explain how a variable magnetic field causes electrical current to flow through copper wires—the principle behind both the electric generator and the electric motor.
1864 – Electricity and magnetism Scottish mathematician James Maxwell discovers four basic equations that describe all the relationships between electricity and magnetism.
1888 – First generator Croatian inventor Nikola Tesla designs the world’s first successful alternating current (AC) generator. Alternating current is more powerful than the direct current (DC) produced by batteries.
1947 – The transistor In America, electrical engineers invent the transistor, the world’s first semiconductor device, beginning the Electronic Age.
One cell is fused with the egg The nucleus is removed from the egg.
An unfertilized egg
The clone is born
Dr. Ian Wilmut and Dolly the sheep.
• See the GLOSSARY for a detailed definition of a SEMICONDUCTOR DEVICE.
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D I S C O V E RY TIMELINE 1543 – Sun-centered universe Polish astronomer Copernicus publishes Six Books Concerning the Revolutions of the Heavenly Orbs that presents his discoveries and theory of the universe with the Sun at the center.
1609 – Galileo’s telescope Galileo hears of Lippershey’s invention and builds his own telescope. He uses his new instrument to make many discoveries, including Jupiter’s four largest moons and sunspots from which he deduces that the Sun rotates.
1610 – Orion Nebula Frenchman Nicolas-Claude Fabri de Peiresc discovers the Orion Nebula. This star “nursery” is visible with the naked eye. Stars are being born there right now.
1705 – Halley’s Comet Edmond Halley discovers that comets observed in 1531, 1607, and 1682 are the same comet. He predicts the comet will return in 1758. The comet is sighted in that year (after Halley’s death) and is named in his honor.
1922–1924 New galaxies American astronomer Edwin Hubble discovers that there are other galaxies outside of our galaxy, the Milky Way.
EXPLORING SPACE
W
hen the telescope was invented in the 17th century, astronomers were able to study the stars and the planets in more detail. In the early 20th century, pioneering rocket scientists, such as Konstantin Tsiolovsky, Robert Goddard, Herman Oberth, and Werner von Braun, expanded our horizons further when they developed the means to blast a satellite, or a human being, into space.
1995 – Hale-Bopp comet US amateur astronomers Alan Hale in New Mexico and Thomas Bopp in Arizona independently discover a new comet on July 23. At its brightest in 1997, Hale-Bopp was a thousand times brighter than Halley’s comet.
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Some of the planets in our solar system have been known for many years, while others were discovered more recently. Both astronomers on Earth and space probes have added to the long list of solar system discoveries. JUPITER – GREAT RED SPOT
VENUS – VOLCANOES
Jupiter’s Great Red Spot (GRS) was discovered by the French astronomer, Gian Domenico Cassini, in 1665 using an early telescope.
Following the mapping of Venus’s surface by NASA’s Magellan probe (1990–1994), scientists discovered that Venus is covered in volcanoes, including an active volcano Maat Mons. Venus and Earth are the only two planets known to have active volcanoes.
Thanks to space probes we now know the GRS is around 7,500 miles by 15,5000 miles and is a vast, violent storm.
MERCURY – CRATERS
PLUTO
When Mercury was first photographed by the NASA probe Mariner 10 in 1974, it was discovered that Mercury has many deep craters. The largest, the Caloris Basin, is around 800 miles across.
Pluto’s existence had been predicted by astronomer Percival Lowell, but it was actually discovered by American Clyde Tombaugh at the Lowell Observatory in 1930. In 1978, Pluto’s close satellite, Charon, was discovered by James Walter Christy.
Pluto
URANUS
INVENTION OF THE TELESCOPE
ROCKET PIONEERS 1150 – Chinese rockets Gunpowder propelled rockets are invented by the Chinese.
c 1900 – Tsiolkovsky Russian scientist Konstantin Tsiolkovsky suggests using rockets with stages that can be jettisoned to get large objects into space.
1926 – Goddard’s Rocket American Robert Goddard experiments with different fuels. In 1926, the first rocket to use a liquid propellant was launched from Goddard’s Aunt Effie’s cabbage patch.
HANS LIPPERSHEY Dutch spectacle-maker Hans Lippershey is credited with inventing the refracting telescope in 1608. Lippershey discovered that if you look through two lenses of the right type, they will enlarge distant objects. Lippershey offered his new “looker” to the government for use in warfare. He was paid 900 florins for the instrument, but there was a requirement that it be modified into a binocular device.
NEPTUNE
MARS – CRATERS
MARS – VOLCANOES
SATURN – THE RINGS
In 1971, the space probe Mariner 9 discovered a system of canyons known as the Valles Marineris. The canyons stretch for around 2500 miles. Some individual canyons are 100 km wide and some are 5–6 miles deep.
The largest volcano in the solar system, Olympus Mons, was discovered on Mars. It is 16 miles high. The tallest volcano on Earth, Mauna Loa in Hawaii, rises 6 miles above the ocean floor.
Saturn’s ring system was discovered by Galileo in 1610. Galileo’s primitive telescope could not make out the structure of the rings. We now know that the rings are made of millions of small chunks of rock and ice.
Newton’s telescope
NEWTON’S TELESCOPE In 1668, English mathematician Isaac Newton developed the reflecting telescope. English astronomer John Gregory had thought up an alternative reflector design in 1663.
Eyepiece
REFLECTING TELESCOPES
1920s–1930s German Herman Oberth develops much of the modern theory for rocket and spaceflight. German scientist Werner von Braun produces the V2 rocket (a weapon) for Germany in WWII, then goes to America to work on the space program.
Charon
Refracting telescopes work by having a convex lens which bends light rays from an object to form an upside-down image of the object. A second lens, the eyepiece, bends the rays again and magnifies the image. Convex lens
Goddard’s work earns him the nickname, “Father of Modern Rocketry.”
Sir William Herschel discovered Uranus on March 13, 1781, using a home-made reflecting telescope that was about 6.5 feet long. Herschel originally thought Uranus was a comet.
REFRACTING TELESCOPES
1931 – Radio waves from space American engineer Karl Jansky is assigned by Bell Telephone Laboratories, in New Jersey, to track down interference which is causing problems to telephone communications. Jansky finds all the sources except one. After months of study, he establishes that the radio interference is coming from the stars.
The orrery, a mechanical model of our solar system, invented in the mid 1700s.
SOLAR SYSTEM DISCOVERIES
A reflecting telescope uses a shaped primary mirror to reflect light to a smaller secondary mirror. The light is then reflected to the focus and the image is viewed through an eyepiece. Primary mirror
Focus
Light
Secondary mirror
Eyepiece
MARS – MOONS In 1877, the American astronomer Asaph Hall discovered Mars’ two moons. He named them Phobos and Deimos after the sons of Ares, the Greek counterpart of the Roman god Mars.
HUBBLE SPACE TELESCOPE
RADIO TELESCOPES Radio telescopes receive radio waves emitted by objects in space and, through a computer, convert those waves to images. Radio waves can penetrate through dust clouds that block visible light.
• See page 19 1931 – RADIO WAVES FROM SPACE
The Hubble Space Telescope is a satellite built by NASA and ESA. It was launched in 1990 and orbits about 350 miles above the Earth. • The telescope is named after astronomer Edwin Hubble. • Hubble is a reflecting telescope, and it also works in ultraviolet. It is powered by two solar panels.
• Hubble is designed to look a long way beyond the solar system. The volume of space it can cover is 350 times bigger than can be seen from the Earth.
Some scientists believed this rod-like structure to be a fossilized, microscopic Martian creature.
LIFE ON MARS In 1996, US geologist David S. Mckay and a team from NASA’s Johnson Space Center in Houston reported that they had found evidence of microscopic life on Mars. The tiny microbes were found inside a meteorite which had travelled from Mars to Earth possibly taking millions of years. At present, many scientists do not agree with McKay’s findings.
Neptune was discovered in 1846 by astronomer J.G. Gale in Berlin. Neptune’s position had been predicted by the mathematicians John Couch Adams in England and Urbain Le verrier in France.
IT CAME FROM SPACE We all benefit from inventions developed by NASA for space missions. • Battery-powered tools were invented for use in space where there are no electrical sockets. • The digital watch was invented to help astronauts keep accurate time. • Plastic sandwich boxes were originally used to keep food for astronauts fresh.
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HUMAN BODY
D I S C O V E R Y TIMELINE AD 200 – Galen Greek-born doctor Claudius Galen describes the workings of the body. Galen’s work is often based on animal dissections. His findings, many incorrect, remain unchallenged until the 1500s.
1543 – Vesalius’s anatomy Flemish doctor Andreas Vesalius publishes the first accurate description of human anatomy, De humani corporis fabrica libri septem (The Seven books of the Human Body). It is based on his dissections of human cadavers.
M
ost body activities, including how we move and digest food, are now well understood thanks to discoveries made in the past 500 years. The earliest anatomists studied the structure of body organs, such as the heart and kidneys. Later, physiologists discovered how these organs worked. There are still discoveries being made today. The Human Genome Project, for example, having read the DNA in our cells, is now identifying the instructions in Anatomist Andreas our DNA needed to build and run a human being. Vesalius (1514–1564)
1614 – Santorio Italian physician Santorio Santorio completes 30 years of research experimenting on his own body to see how it works.
1800 – Cells French doctor Marie-François Bichat shows that organs are made of different groups of cells, called tissues.
1889 – Neurons Spanish physiologist Ramón Santiago y Cajal discovers that the nervous system is made up of neurons that do not touch.
1905 – Hormones British physiologists William Bayliss and Ernest Starling invent the term hormone to describe the newly-discovered “chemical messengers” that control many body activities.
1912 – Vitamins Polish-American biochemist Casimir Funk invents the term vitamin to describe nutrients required by the body in tiny amounts to make it work properly.
DISCOVERY TIMELINE: BLOOD 1628 – Blood circulation
1884 – Action of white blood cells
British doctor William Harvey’s experiments prove that blood circulates through the body, pumped by the heart, in blood vessels.
Russian zoologist Elie Metchnikoff describes how white blood cells surround and devour bacteria and other germs.
1658 – Red blood cells Red blood cells are first observed and identified by Dutch naturalist Jan Swammerdam using an early microscope.
1661 – Blood capillaries The existence of blood capillaries— tiny blood vessels that link arteries to veins—is discovered by Italian microscopist Marcello Malpighi.
The existence of blood groups is discovered by Austrian-American doctor Karl Landsteiner. The four blood groups are later named A, B, AB, and O. Blood transfusions will only work if the right type of blood is given. Landsteiner’s discoveries allow for safe blood transfusions.
Blood cells
• In 2000, scientists released a rough draft of the human genome showing
1970s – Natural painkillers Discovery that natural painkillers, called enkephalins and endorphins, are produced by the body.
• See page 15 THE STORY OF DNA • See page 17 THE STORY OF GENETIC ENGINEERING
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Scientist Max Perutz discovers the structure of hemoglobin, the substance inside red blood cells that carries oxygen and makes those cells red.
1901 – Blood groups
• Several anonymous donors provided DNA for the project. The resulting DNA map will be typical of all human DNA.
all of the estimated 3 billion base pairs in human DNA. • In April 2003, the Human Genome Project completed the map, giving scientists the ability, for the first time, to read the complete genetic blueprint for building a human. • It will take decades to understand what all of the 25,000 to 30,000 human genes do, but scientists hope that new treatments and earlier diagnosis of diseases will be among the many benefits of this vast and pioneering project.
Phials containing every gene in the human body from the Human Genome Project.
The human body is made up of 10 trillion cells of 200 different types. It has taken hundreds of years to understand how it works, and there are still more discoveries to be made. EAR The ear was first described in detail by Italian anatomist Bartolomeo Eustachio in 1562. He gave his name to the eustachian tube that connects the air-filled middle ear to the back of the throat. PITUITARY GLAND In 1912, American doctor Harvey Cushing described the pituitary gland and how it works. This raisin-sized gland, at the base of the brain, is vitally important, releasing nine hormones that control growth, reproduction, and many other body activities.
1959 – Hemoglobin structure
THE HUMAN GENOME PROJECT • In the late 1980s, groups of scientists around the world set out on an unprecedented research project— to produce a map of the human genome, or human genetic code.
DISCOVERING THE HUMAN BODY
LUNGS In the 1600s, British doctor John Mayow discovered that “breathing in” happens when the chest gets bigger making the lungs expand to take in air. He experimented with models of the chest made from bellows.
STOMACH Digestion in the stomach was first described in 1833 by American doctor William Beaumont. He experimented by dangling food into a man’s stomach through a hole in his side created by a shooting accident.
BONE Bones are hard and strong because they contain rigid, microscopic cylinders that lie in parallel to each other. These are named Haversian systems after Clopton Havers, a British doctor who described bone structure in 1691.
BRAIN Part of the left side of the brain, called Broca’s area, controls speech. It was first described in 1861 by French doctor Pierre Paul Broca. He made his discovery while treating a brain-damaged patient. VEINS Veins are blood vessels that return blood to the heart. In 1603, Italian anatomist Hieronymus Fabricius showed that veins have valves. These prevent the backflow of blood away from the heart.
PANCREAS Made and released by the pancreas, the hormone insulin controls levels of glucose in the blood. Insulin was first isolated in 1921 by Canadian scientists Frederick Banting and Charles Best.
KIDNEYS In 1842, British doctor William Bowman described the microscopic structure of the kidney. Two years later, in 1844, German scientist Karl Ludwig discovered how the kidneys make urine.
LIVER In the 1850’s, French physiologist Claude Bernard was the first person to investigate what the liver, the body’s largest internal organ, does. We now know the liver performs over 500 vital functions.
MUSCLES How muscles contract to pull bones and move the body was discovered independently in 1954 by British scientists Andrew Huxley and Hugh Huxley.
• See the GLOSSARY for explanations of many of the scientific terms used in this timeline.
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MEDICINE
M E D I C A L TIMELINE 1796 – Vaccination Edward Jenner performs the first vaccination for smallpox.
1851 – Opthalmoscope German scientist Hermann von Helmholtz invents the ophthalmoscope, a device for looking into and examining the inside of the eye.
1867 – Thermometer English doctor Thomas Allbutt devises the first accurate clinical thermometer for measuring body temperature.
1882 – Tuberculosis German doctor Robert Koch discovers bacterium that causes the disease tuberculosis (TB).
1895 – X-rays German physicist Wilhelm Roentgen discovers X-rays.
1896 – Sphygmomanometer Italian doctor Scipione Riva-Rocci devises first accurate sphygmomanometer, a device for measuring blood pressure.
1903 – Electrocardiograph Dutch scientist Willem Einthoven devises the electrocardiograph (ECG), a machine that monitors heartbeats.
1910 – Salvarsan German scientist Paul Ehrlich discovers salvarsan. It is used to treat syphilis and is the first drug to treat a specific disease.
1928 – Penicillin Alexander Fleming discovers the antibiotic penicillin.
1943 – Kidney dialysis Dutch doctor Willem Kolff invents the dialysis machine to treat people with kidney failure.
1958 – Ultrasound images Ultrasound first used to produce images of a fetus in its mother’s uterus.
• See page 15 THE STORY OF DNA • See page 17 THE STORY OF GENETIC ENGINEERING
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DISCOVERING X-RAYS LOOKING INSIDE THE BODY Within weeks, Roentgen’s discovery was greeted as one of the most significant in the history of medicine. For the first time doctors could look inside the living body without having to cut it open. Today, X-rays are used routinely to detect broken bones and other disorders.
A
disease or illness stops your body from working normally. The study of medicine involves finding out how a disease can be cured and prevented. Advances in medicine mean that today’s doctors can diagnose and treat many illnesses. Hi-tech methods, such as CT scans, allow doctors to look inside a living body for possible problems. Drugs, such as the germkilling antibiotic penicillin, are being developed all the time to combat specific diseases. Modern surgery removes, repairs, or replaces damaged body parts.
STETHOSCOPE
In December, 1967, South African surgeon Christiaan Barnard became the first person to perform a successful, human heart transplant.
S U R G I C A L TIMELINE 1770s – Art of surgery English doctor John Hunter transforms surgery (the process of cutting into the body to treat disease) from a lowly craft to a progressive medical science.
1846 – Anaesthetic The first public demonstration of ether anaesthetic is carried out by anaesthetist William Morton during a surgical operation in Boston, USA.
1865 – Antiseptic surgery
An 18th century case of surgical instruments. Many of the implements were used for amputations—a common remedy when little was know about bacterial infections.
ANTISEPTIC SURGERY
In 1819, French doctor René Laënnec invented the first stethoscope, an instrument used by doctors to listen to a patient’s breathing and heart rate. Since 1819, Laënnec’s cylindre, a wooden tube, has been improved upon many times to produce the instrument used today.
TIMELINE: FIRST HEART TRANSPLANT
Joseph Lister was a British surgeon and the founder of antiseptic surgery.
half of all surgical patients died from gangrene or secondary infections.
• In 1867, Lister introduced dressings soaked in carbolic acid and strict rules of hygiene to kill bacteria. • Lister’s methods increased the survival rate from surgery dramatically. Prior to this, around
Joseph Lister
ALEXANDER FLEMING 1881–1955 Nationality: Scottish Profession: Bacteriologist Biographical information: Fleming trained as a doctor in London and served in the Medical Corps during World War I. He became interested in the problem of controlling infections caused by bacteria and continued his research after the war.
he noticed that something was killing the bacteria. When he investigated, he found that it was a bread mould, called penicillin. Most famous discovery: Fleming discovered penicillin, the first antibiotic. Antibiotics are drugs that kill bacteria. They are now used to treat many illnesses and diseases.
Scientists at work: Two other scientists, Howard Florey and Ernst Chain, helped perfect the manufacture of penicillin, and they shared the 1945 Nobel Prize for Sir Alexander Fleming at a microscope in his laboratory at St. medicine with Fleming. Eureka moment: One morning in 1928, Fleming was preparing a routine set of bacteria cultures when
Mary’s Hospital, London, c 1929.
Joseph Lister pioneers use of germkilling antiseptic during operations.
1937 – Hip replacement
WILHELM ROENTGEN In November 1895, German physicist Wilhelm Roentgen found that by passing electricity through a vacuum he produced a new type of high energy radiation that he called X- (for unknown) rays. SEEING BONES Roentgen also discovered that a beam of Xrays could pass through the body to An X-ray produce an of Roentgen’s image on a wife’s hand, photographic 1895. plate. Roentgen found that while bones appeared as clear images on the plate, soft tissues, such as muscle and skin, were much less distinct.
Barnard draws a simple diagram of his pioneering procedure for reporters at a press conference following the ground-breaking surgery. December 3, 1967
An X-ray showing a broken leg bone.
Christiaan Barnard leads a team of twenty surgeons in a revolutionary operation at the Groote Schuur Hospital, Cape Town, South Africa. Barnard replaces the heart of South African grocer, Louis Washkansky (who has an incurable heart disease) with a healthy heart from a fatally injured accident victim.
CT SCANNERS X-rays are also used in combination with computers in computed tomography scanners. CT scanners produce images in the form of body “slices” that show both hard and soft tissues, an idea first developed by British engineer Godfrey Hounsfield in 1967.
December 21, 1967 Washkansky dies from double pneumonia, but he has lived for 18 days with the donor heart and the operation is deemed a success.
1970s Barnard’s heart transplant operations are increasingly successful and by the late 1970s, a number of his patients have survived for several years.
EDWARD JENNER 1749–1823 Nationality: British Profession: Doctor Biographical information: Edward Jenner trained as a surgeon before studying medicine in London. He returned home as a doctor in 1773. Most famous discovery: The discovery and initial development of vaccination.
Eureka moment: Milkmaid Sarah Nelmes boasted that she could not catch smallpox because she had earlier caught the less serious disease cowpox from the cows she milked. A smallpox outbreak in 1788 proved that she was right. All of Jenner’s patients who had caught cowpox did not get smallpox.
Scientist at work: Jenner proved his theory by infecting a small boy first with cowpox and then with smallpox. He found that the boy was immune to smallpox. Jenner called his treatment vaccination (from the Latin word for cowpox, vaccina).
In London, surgeon Philip Wiles performs the first hip replacement surgery using a stainless steel “ball and socket.”
1940 – Plastic surgery First skin grafts, to repair burns suffered by WWII pilots, carried out by English surgeon Archibald McIndoe.
1944 – Cardiac surgery Pioneering operation by American doctors Alfred Blalock and Helen Taussig to treat heart disease in babies establishes specialty of cardiac (heart) surgery.
1954 – Kidney transplant First successful kidney transplant operation (transferring a healthy kidney from a donor to a recipient with a diseased kidney) carried out in Boston, by Joseph Murray.
1967 – Heart transplant First heart transplant operation carried out by South African surgeon Christiaan Barnard.
1969 – Microsurgery First use, in USA, of microsurgery in which a surgeon uses a binocular microscope to magnify tiny blood vessels or nerves while repairing them.
1980 – Keyhole surgery Introduction of “keyhole” surgery, called laparoscopic-assisted surgery, carried out through small incisions in the skin.
1987 – Laser eye surgery In America, laser eye surgery using intense heat to repair damaged tissues first performed.
2002 – Surgical robots First robot-assisted cardiac operation in the USA.
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T E X T I L E S TIMELINE 1733 – FLYING SHUTTLE In England, the engineer John Kay invents the Flying Shuttle. a mechanical attachment for hand looms that speeds up the weaving process by more than 100%.
1764 – SPINNING JENNY English cloth worker James Hargreaves invents the Spinning Jenny, a hand-powered machine that can spin 16 threads at once.
1769 – WATER POWER
EARLY INDUSTRY
T
he Industrial Revolution spread across three centuries and was the result of countless inventions, developments, and improvements. Two key factors were the widespread availability of metals, especially iron and steel, and the introduction of machinery. The textile industry was the first to be affected by the Industrial Revolution. The first modern factories were built in the 18th century for spinning cotton in northern England.
The English inventor Richard Arkwright patents his waterpowered spinning frame that can spin much stronger threads than is possible by hand.
The Spinning Jenny
THE JACQUARD LOOM • The first programmable machine was Joseph-Marie Jacquard’s loom.
In England, cloth worker Samuel Crompton perfects his Spinning Mule, a water-powered machine that combines the advantages of the Spinning Jenny and the spinning frame.
• The pattern woven by the loom was controlled by cards with holes punched in them. Changing the pattern of holes changed the pattern woven into the cloth.
1785 – POWER LOOM In England, Edmund Cartwight patents the world’s first power loom. Two years later, he also invents a machine for combing wool. In France, weaver Joseph-Marie Jacquard invents an automatic mechanical loom that can weave patterns.
1851 – SEWING MACHINE American inventor Isaac Singer produces the world’s first lockstitch sewing machine. The machine uses two threads—a needle pushes one thread through the cloth from above, while a second thread is pushed through the first by a shuttle moving back and forth underneath. This type of machine was also invented by American Walter Hunt in 1843 and had been patented by Elias Howe, but Singer’s machine perfected the invention.
1856 – MAUVE English chemist William Perkin creates mauve—the first artificial dye.
MUNTZ METAL In 1832, English businessman George Muntz invented an alloy of copper (60%) and zinc (40%), it was known as Muntz metal. This new alloy soon replaced pure copper for sheathing the hulls of wooden ships, making it stronger.
THE STORY OF MASS PRODUCTION Mass production depends of three things: the use of machinery, interchangeable components, and the assembly line. MADE BY HAND The first machines are individually made by hand. The idea of interchangeable parts is first introduced in France, in 1785, for making the firing mechanisms of sporting guns.
industry for the manufacture of his Oldsmobile buggy, in the USA.
MODEL T PRODUCTION LINE In 1913, American industrialist Henry Ford builds the world’s first fully integrated factory assembly line for the production of the famous Model T Ford.
Workers add parts to cars as the cars move by. The man hours required to build a car go down from 12 hours to an hour and a half. A car is produced every 24 seconds.
• See page 26 HENRY FORD
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IRON BUILDINGS
In 1777, the world’s first iron bridge is constructed across the River Severn at Coalbrookdale in Shropshire, England.
In 1889, the Eiffel Tower in Paris, France, is the last major building to be made from iron—in the future, steel will be used.
PRE-FABRICATED BUILDING
STEEL-FRAMED SKYSCRAPER
In 1851, The Crystal Palace is built entirely from iron and glass to accommodate the Great Exhibition in London, England. Engineer and botanist Joseph Paxton designs the building, based on the design of greenhouses used for growing plants. Paxton’s revolutionary design contains over 300,000 panes of glass and hundreds of ready-made, cast-iron frames that simply bolt together on site.
By the second half of the 19th century, business space in US cities is in great demand. The refinement of the Bessemer steel-making process in 1855 makes it possible to construct very high buildings, because steel is both stronger and lighter than iron. The development of the first safety lift also makes skyscrapers (buildings of 10 to 20 stories high) possible.
PRE-STRESSED CONCRETE
The Crystal Palace under construction.
AN EXPLOSIVE INVENTION DYNAMITE The invention: Dynamite is a type of nitro-glycerine explosive that could be handled safely. Dynamite became used widely in the mining and construction industries. Invented: 1866 Invented by: Swedish chemist Alfred Nobel Other inventions: Blasting gelatin, smokeless powder for firearms, and explosives specifically for military purposes (although
Plastics replaced traditional materials used in industry, such as wood, metal, glass, ceramics, natural fibers, ivory, and bone.
MANUFACTURING FIREARMS In 1801, inventor Eli Whitney demonstrates his system of interchangeable parts for the manufacture of military firearms.
SAMUEL COLT In 1855, American industrialist Samuel Colt sets up a factory that uses interchangeable parts and a production line to make handguns of his own design. In 1901, inventor Ransom Olds introduces production line methods into the newly established automobile
In 1867, in France, amateur inventor Joseph Monier makes the first successful reinforced concrete using lateral iron rods.
Nobel later developed a bad conscience about this). Inventor fact: When Nobel died in 1896, he bequeathed most of his fortune to establish Nobel Prizes for peace and scientific achievement.
In 1928, French Engineer Eugene Freyssinet is the first to make use of prestressed concrete.
OTIS SAFETY ELEVATOR • Elisha Otis worked in a US bed factory. Simple cargo elevators were used to move goods to upper floors. Otis invented a safety device thathad arms that shot out from the elevator car and grabbed the side of the shaft if the rope broke. To demonstrate his invention, he had the cable cut while he was in a lift at the World’s Fair of 1853. • Skyscrapers would not have been built were it not for Otis’s invention.
CELLULOID During the late 1860s, American inventor John Hyatt discovers how to make celluloid while looking for an ivory substitute for making billiard balls. Celluloid is made into combs, piano keys, dolls, knife handles, and film. However, it is highly flammable and causes many accidents.
BAKELITE PARKESINE
A line of Model T chassis. The car bodies were manufactured on the upper floor of the factory, then lowered onto the chassis, which were built on the lower floor.
In 1862, the English chemist Alexander Parkes produces the world’s first plastic, named Parkesine. The material can be squeezed into a mold while soft and is made into small decorative items.
In 1910, the Belgian-born American chemist Leo Baekeland invents the first thermosetting plastic, a plastic that sets permanently when heated. It is named Bakelite. Hard and chemically resistant, Bakelite is a nonconductor of electricity so it can be used in all sorts
IRON & STEEL TIMELINE 1709 – QUALITY IRON In England, Abraham Darby first produces good quality iron by smelting iron ore with baked coal. Baked coal burns with a hotter flame than charcoal and can be used to fuel much larger furnaces.
1709 – IRON BARS In Sweden, the engineer Christopher Polhelm invents a grooved roller that can be used for making iron bars.
1750 – CRUCIBLE STEEL In England, clockmaker Benjamin Huntsman perfects a process for making steel by heating high-quality iron in a special reverbatory furnace. Called crucible steel, this new metal is so hard to work with that knife makers at first refuse to use it.
1783 – PUDDLING PROCESS The English ironmaker Henry Cort patents his “puddling” process that converts the brittle “pig iron,” produced by smelting, into wrought iron which can be easily hammered and pressed into pots, pans and other household items.
1847 – STEEL MAKER The American iron maker William Kelly discovers that he can convert iron to steel by blasting jets of air onto molten iron.
1855 – BESSEMER PROCESS In England, the inventor Henry Bessemer patents his own method of making steel using blasts of air.
1864 – SIEMENS-MARTIN
FANTASTIC PLASTIC
RANSOM OLDS • See page 35 for more info on fashion inventions.
FIRST IRON BRIDGE
REINFORCED CONCRETE
1779 – SPINNING MULE
1801 – JACQUARD LOOM
THE CONSTRUCTION INDUSTRY
of electrical appliances.
POLYCARBONATE In 1953, Dr. Daniel Fox, a chemist at General Electric, creates a gooey substance that hardens in a beaker. He finds he cannot break or destroy the material. LEXAN polycarbonate has been invented. Available in over 35,000 colors, polycarbonate has now been used in vehicle windows, helmets worn by the first astronauts on the moon, fighter jet windshields, laptop computer housings, CDs, and DVDs.
The Martin iron works in France begins producing steel in an openhearth furnace invented by the German engineer William Siemens. The Siemens-Martin process later becomes the world’s leading method of steel production.
1866 – AIR BOILING In the USA, Henry Kelly patents his “air boiling” method of steel making.
1877 – QUALITY STEEL In England, cousins Percy and Sidney Gilchrist invent a method of dephosphorizing steel to produce better quality metal.
• See page 12 DISCOVERING AND INVENTING METAL
25
ENGINE POWER
ROAD VEHICLE TIMELINE 1838 – Pedal power Kirkpatrick Macmillan, a Scottish blacksmith, invents the bicycle when he improves the recently invented velocipede. He adds a pair of pedals that drive the rear wheel.
1881 – Electric vehicle The world’s first electric vehicle is driven around the streets of Paris, France. The electric power is supplied from storage batteries developed by Gaston Plante and Camille Faure.
F
or thousands of years, people had to rely on muscle power for making overland journeys. They walked, rode on horseback, or sat in a wagon pulled by animals to travel. Beginning in the 18th century, the traditional forms of transport were transformed by the invention and development of new sources of mechanical power in the form of the steam engine, and later, the internal combustion engine.
1885 – Motorcycle Gottleib Daimler, who also invented the gas engine, builds the world’s first motorcycle in conjunction with the German inventor Wilhelm Maybach.
1888 – Pneumatic tire The Scottish veterinary surgeon John Dunlop patents the pneumatic tire. He invented the tyre to give his son a more comfortable ride on his tricycle.
1904 – Commercial success The four-wheel, curved-dash Oldsmobile designed by Ransom Olds becomes the world’s first commercially successful automobile when some 4,000 are sold in the USA in a single year.
• See page 24 THE STORY OF MASS PRODUCTION
26
• In 1859, Edwin Drake drilled the world’s first oil well in Pennsylvania. He struck oil 69.5 feet below the surface.
The blossoming film industry of the 1920s was quick to see the potential of the motor car—Ford’s Model Ts were soon in the movies!
An engine is a device for transforming heat from burned fuel into motive power. INTERNAL OR EXTERNAL? Steam engines are external combustion engines. The fuel is burned in a separate boiler, external from the engine, to make the steam that provides the force. Internal combustion engines, such as gas or diesel engines, burn their fuel inside the engine.
a mixture of air and coal gas. Fourstroke engines get their name because the piston goes through a repetitive cycle of four up and down movements or strokes. Otto engines become widely used in European factories.
THE GASOLINE ENGINE In Germany, in 1885, Gottleib Daimler invented the gas engine when he developed a carburetor, a device that allows a four-stroke engine to burn a mixture of air and gas. The advantage of gas is that it is much easier to store than coal gas.
The French engineer Camille Jenatzy builds an electric car that becomes the first vehicle to break the 100 km/h barrier (62.2 mph).
At first, steam power was mostly used to run stationary machines. It was only through the vision and determination of engineers and inventors that steam was eventually used to power the railways.
THE DIESEL ENGINE In 1893, German engineer Rudolf Diesel invented a four-stroke engine that burned a mixture of air and diesel oil.
THE FOUR STROKE ENGINE In 1876, German engineer Nickolaus Otto built the first four-stroke internal combustion engine. It burned
Edwin Drake (right) in 1866 with the first US oil well.
SUPER STEAM
Profession: Engineer and businessman Biographical information: Henry Ford left school at 15 and apprenticed as a machinist. Later, he set up a sawmill and engineering workshop on his father’s farm. He built his first car in a workshop behind his home in Detroit in 1896. In 1903, He set up the Ford Motor Company.
Most famous invention: In 1913, Ford invented the assembly line, an effcient way of making cars. The car moves along a track in the factory, and each worker adds one part to the car as it passes them. Eureka moment: Ford realized that if he could produce cars cheaply enough, he could sell them in huge numbers and make big profits.
English engineer Thomas Newcomen invents the first true steam engine. It uses a pair of pistons in cylinders to tilt the ends of a centrally positioned horizontal beam that operates a pump.
1769 – STEAM WAGON French army engineer Nicholas Cugnot builds the world’s first steam-powered land vehicle. Cugnot’s prototype three-wheeled artillery tractor can pull loads of up to 3-tons. However, the weight of the huge copper boiler at the front makes it difficult to steer. On its first trip, it runs into a wall.
1791 – ROTARY POWER
Nickolaus Otto’s four-stroke engine
Scottish engineer James Watt perfects a steam engine that is capable of powering other machines. Watt’s machine has a
HENRY FORD 1863–1947 Nationality: American
In England, engineer Thomas Savery invents a pump that uses condensed steam to create a vacuum that draws water up a pipe. The machine is used to pump water from underground mines.
1712 – BEAM ENGINE
• At first, oil refineries concentrated on producing lubricating oils and paraffin for lamps. But after 1900, with the development of the internal combustion engine, gas and diesel fuel quickly became the most important refinery products.
FASTEST ON FOUR WHEELS 1899 – 100 km/h barrier
Cugnot’s steampowered tricycle had a top speed of 2 mph.
INVENTION OF THE ENGINE
1908 – Model T American industrialist Henry Ford introduces the Model T, describing it as, “the car you can have in any color, as long as it’s black.” The Model T marks the true beginning of the automobile age.
STEAM POWER
1698 – STEAM PUMP
1885 – Automobile In Germany, mechanical engineer Carl Benz builds and test-drives the world’s first automobile, a tricycle powered by an internal combustion engine. Benz’s motor tricycle has a top speed of 8 mph.
BLACK GOLD
flywheel, which converts the up and down movement of a piston into rotary motion.
1801–1808 RAILWAY LOCOMOTIVES Richard Trevithick builds a steam locomotive for an ironworks in Coalbrookdale, in Shropshire, England. In 1808, he gives rides to passengers around a circular track built in London in his “Catch Me Who Can” steam train.
1807 – STEAMBOAT SERVICE In the USA, the engineer Robert Fulton starts a steamboat service on the Hudson River between the cities of New York and Albany. The service is reliable and successful.
1830 – ROCKET A 31-mile railway line between the cities of Liverpool and Manchester in England is built primarily to carry passengers. A locomotive named the Rocket, designed by the engineer Robert Stephenson, pulls the first train in 1930. For a short stretch Rocket reaches 36 mph.
1906 – Stanley steamer A Stanley Steamer built by the American brothers Francis and Freelan Stanley reaches a road speed of 127.4 mph.
1921 – 208 mph French driver Sadi Lecointe reaches 208 mph in a gas-engine NieuportDelage racing car.
1988 – Solar power In the USA, driver Molly Brennan achieves a top speed of 48.71 mph in a solar-powered vehicle called Sunraycer.
1997 – Sound barrier In the Black Rock Desert, Nevada, Andy Green breaks the sound barrier in Thrust SSC, reaching a speed of 763 mph.
ON THE ROAD TIMELINE 1952 – Airbag First patented in 1952 by American John W. Hetrick, and with a practical version developed in 1973, airbags were fitted to most cars in the US by 1988, and later to European cars.
1959 – Seat belt First fitted to a 1959 Volvo, Nils Bohlin’s “lap-and-diagonal” design seat belts anchor passengers to the car. Seat belts have since prevented millions of injuries.
1954 – Breathalyzer
Henry Ford
THE MALLARD The fastest steam locomotive ever was the Mallard. It achieved a maximum speed of 126 mph in England in 1938. It was built by the British engineer Sir Nigel Gresley.
Robert Borkenstein, a police officer in Indiana, invented the breathalyzer. It uses chemicals that turn from orange to green, indicating the amount of alcohol in the breath.
The Stephenson’s Rocket locomotive sits next to a larger, more modern British steam locomotive.
• See page 52 A–Z INVENTIONS for more travelrelated inventions.
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A I R C R A F T TIMELINE 1485 – Flapping design Italian artist and inventor Leonardo da Vinci sketches a man-powered aircraft made of wood and fabric. Da Vinci’s design is intended to imitate the flight of birds with flapping wings.
1804 – Fixed wings In England, amateur flight enthusiast and inventor George Caley builds a model fixed-wing glider that establishes the basic configuration of the modern aircraft. The glider was strong enough to carry a boy, and a later, stronger model carries Caley’s coachman across a narrow valley.
1896 – Hang glider In Germany, inventor Otto Lilienthal is killed after crashing into the ground while testing his latest design for a hang-glider. Previously Lilienthal had successfully “flown” distances of more than 1150 feet and had made more than 2,500 flights.
1903 – Powered flight
PLANES AND BOATS
U
ntil the invention of powered flight, the only way to cross seas and oceans was by ship. Early sailors in wooden sailing ships were constantly at the mercy of the winds and high seas. In the 19th century, technological innovations, such as iron hulls and steam engines, made shipping faster, safer, and more reliable. Since the beginning of the 20th century, the development of aircraft has shrunk long-distance journey times from weeks to a matter of hours.
THE FIRST FLIGHT • December 17, 1903, Wilbur and Orville Wright travel to the sand dunes outside Kitty Hawk in North Carolina, with their plane, Flyer. • Only five people witness the world’s first powered flight. • Wilbur runs alongside Flyer
Wilbur: 1867–1912 Orville: 1871–1948
1907 – First helicopter
Nationality: American
1909 – Cross-channel French engineer and aviator Louis Bleriot makes the first flight across the English Channel in the Type XI monoplane that he designed and built.
1919 – First across ocean Setting off from Newfoundland and landing in Ireland, English pilots John Alcock and Arthur Brown fly a Vickers Vimy biplane across the Atlantic Ocean. The engines get blocked by ice several times while flying, and Brown has to climb along the wings to chip away the ice with a knife.
• The TIMELINE continues on page 29.
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• Orville operates the controls lying face down on the lower wing. • The flight lasts 12 seconds and covers a distance of 120 feet. The brothers make three more successful flights that day.
ORVILLE AND WILBUR WRIGHT
Orville and Wilbur Wright achieve the world’s first powered flight. French mechanic Paul Cornu becomes the first person to build and fly a helicopter. It hovers just off the ground for 20 seconds. Then, the fuselage rotates in the opposite direction to the rotor blades causing the machine to crash to the ground.
holding one wing to balance the plane on the track.
Profession: Engineers Biographical information: Orville and Wilbur Wright were brothers. From an early age, they were interested in engineering. They owned a business manufacturing and designing bicycles. Eureka moment: In 1899, Wilbur, while watching birds, realized that an airplane must be able to bank to one side or another, to climb or descend, and to steer left or right.
Flyer at Kitty Hawk
Most famous invention: The airplane—they demonstrated the first powered, controlled, and sustained flight in their plane, Flyer. Inventors at work: The Wright brothers built gliders to perfect the controls for their plane, a lightweight petrol engine to power it and an efficient propeller. They even built a wind tunnel to aid their experiments. The brothers approach to inventing was scientific—they thought about a machine’s requirements in advance, rather than “building the machine and seeing what happened,” like their aviation predecessors had.
INVENTING THE JET ENGINE
THE BALLOON INVENTERS 1783 – FIRST HUMAN FLIGHT The first humans ever to fly a hot air balloon invented and built by French brothers Jacques and Joseph Montgolfier.
• See page 48 for more information on JACQUES AND JOSEPH MONTGOLFIER
1900 – ZEPPELINS In Germany, LZ-1, the first large airship designed by the engineer Ferdinand von Zeppelin, successfully takes to the air. Subsequently, zeppelins are used
THE FIRST JET ENGINE
The first submarine was a wooden rowing boat with a watertight cover of greased leather. It was designed in 1620 by Dutch engineer Cornelius van Drebbel.
1783 French engineers demonstrate that a steam engine can be used to propel a 165-ton riverboat.
Test pilots make aircraft inventions possible. They put new designs of air and spacecraft through manoeuvres designed to test the machines’ capabilities. In 1947, the sound barrier was broken for the first time. American test pilot Chuck Yeager flew the air-launched, rocket-powered Bell X-1 aircraft. The X-I reached 700 mph at an altitude of 43,000 feet.
1961 – RECORD-BREAKER
Professor Auguste Picard takes his hot-air balloon to a height of 53,152 feet. Picard risks burst blood
A US Navy research helium balloon carries two pilots, Malcolm Ross and Vic Parther, to an altitude of 113,740 feet above the
Piccard (right) and Jones operated Breitling Orbiter 3 from this pressurized capsule that resembles a spacecraft.
THE FIRST SUBMARINE
SHIP INNOVATIONS
TEST PILOTS
1932 – AUGUSTE PICARD
Shortly after the Montgolfier’s hot-air balloon flight, the French scientist Jacques Alexandre César Charles makes the first flight in a balloon containing lighter-than-air hydrogen gas. Charles’s balloon travels about 29 miles.
In 1930, Royal Air Force pilot Frank Whittle patents his idea for the jet engine, an aircraft engine that uses a jet of heated air to produce thrust. Whittle recognizes the potential for an aircraft that can fly at high speeds. He proves mathematically that his invention can work, but the Air Ministry is not interested.
Whittle’s engine
vessels and eardrums, and even black-outs because his capsule is not pressurized as modern aircraft are today.
1783 – HYDROGEN BALLOON
INVENTION OF THE JET ENGINE
Whittle builds his jet engine and on April 12, 1937, the turbojet engine has its maiden run on the ground. With the outbreak of WWII, the British Government now back Whittle, but it is German inventors who develop the first operational jet aircraft in 1939.
both for warfare, as bombers, and for carrying passengers. In 1937, the Hindenburg airship disaster brings the airship era to an abrupt end.
1786 American engineer John Fitch designs and launches the world’s first purpose-built steamboat on the Delaware River near Philadelphia.
1838 Swedish engineer John Ericsson uses his ship Archimedes to demonstrate that a steam-driven screw (propeller) is more efficient than a steam-driven paddlewheel
The craft was powered by 12 oarsmen and reached depths of nearly 15 feet during tests on the Thames River in England. Passengers breathed through tubes that ran from the submarine to the surface of the water.
INVENTION OF THE HOVERCRAFT • In 1955, British engineer Christopher Cockerell patented the hovercraft, a vehicle that moves on a cushion of air. • In 1958, his prototype SR.N1 crossed the English Channel (34 kilometres) in 20 minutes. • Cockerell patented around 70 inventions during his lifetime.
A I R C R A F T TIMELINE 1927 – Solo Trans-Atlantic American aviator Charles Lindberg makes the first solo flight across the Atlantic Ocean (from New York to Paris) in the Spirit of St. Louis, a single-engine M62.
Earth’s surface.
1930 – Jet engine
1999 – CIRCUMNAVIGATION
In England, Royal Air Force pilot Frank Whittle patents his idea for a jet engine.
Balloon enthusiasts Bertrand Piccard and Brian Jones circumnavigate the world (25,361 miles) in Breitling Orbiter 3. The helium balloon uses air currents to control its course. Orbiter 3 is 780 feet high and can contain the contents of seven olympic-sized swimming pools!
LONGITUDE In the 18th century, sailors could tell their latitude (position north to south) from the position of the Sun. Longitude (position east to west) was difficult. Comparing the time at home (using a clock onboard ship) with the time at sea, according to the position of the Sun, was feasible, but no pendulum clock could keep accurate time with the rolling of the sea. In 1761, after several years work and four attempts, English clockmaker John Harrison invented a chronometer (a large watch-like clock) with a mechanism and dials. Harrison’s invention kept such accurate time that a navigator could work out on a map where he was with an accuracy of less than a mile.
1797
1939 – Jet aircraft In Germany, the He 178 monoplane, designed by Ernst Heinkel, makes its first flight powered by a jet engine developed by engineer Pabst von Ohain.
1941 – Sikorsky helicopter Russian-born aviator, Igor Sikorsky solves the problem of torque by fitting a small rotor on the tail of a helicopter. His VS300 hovers in the air for 102 minutes.
1952 – Jet Airliner The world’s first jet airliner, the de Havilland Comet, comes into service, carrying passengers between London, England and Johannesburg, South Africa.
1970 – Jumbo Jet The first Boeing 747 Jumbo Jet airliner comes into service between New York and London. The jumbo jet can carry more than 360 passengers at a time.
1979 – Human-powered American pilot Bryan Allen achieves the first human-powered cross-channel flight flying the pedal-powered Gossamer Albatross.
1986 – Around the world American pilots Richard Rutan and Jeana Yeager fly nonstop around the world in the experimental Voyager aircraft. The flight, which lasts nine days, is made without refuelling.
2005 – Around the world again
The first ship with a completely metal hull (a 69-foot iron barge) is launched in England.
SR.NI arrives at Dover after the first Channel crossing.
John Harrison’s H4 watch.
Steve Fosset flies solo, nonstop around the world in 67 hours, 1 minute, and 46 seconds.
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TELEGRAPH & TELEPHONE TIMELINE 1794 – Chappe’s telegraph Claude Chappe begins the construction of his telegraph across France.
1825 – Electro-magnet The electro-magnet is invented. This is vital for the later invention of the telegraph.
1837 – Five-needle telegraph William Fothergill Cooke and Charles Wheatstone invent the five-needle telegraph. It works by sending an electric current along wires that move two of the five needles, either left or right, so that they both point to one letter at a time.
1842 – Fax machine The fax machine is invented by Alexander Bain, a physicist.
1843 – Morse telegraph Morse demonstrates his telegraph to the American Congress, and they give him $30,000 to build a telegraph line from Washington D.C. to Baltimore, a distance of 40 miles.
1844 – Morse’s message Morse sends the first message on the new telegraph line. It reads, “What hath God Wrought.”
COMMUNICATIONS
W
hen the American colonies declared their independence in 1776, it took 48 days for the news to cross the Atlantic. The arrival of the telegraph in 1843 and the telephone in 1876 meant that news could get to anywhere in the world almost instantly. The beginning of radio communication in 1896 meant that sounds could travel vast distances without the need for cables. When television arrived in 1936, moving pictures and sounds had the capability to be seen by millions at Wheatstone and Cooke’s the same time anywhere in the world. five-needle telegraph.
CHAPPE’S TELEGRAPH • In 1793, France was at war. A quick way to warn of an invasion was needed. In 1794, Claude Chappe invented the telegraph. • Chappe’s telegraph used two arms at the top of a tall tower. Ropes and pulleys moved the arms into different positions each representing a letter. • The towers were positioned 6 to 20 feet apart, and the messages were read by people using telescopes.
A cable is laid between America and Britain so that telegraphs can be sent across the Atlantic. The cable fails within a month.
• Morse’s idea was to develop a code based on interrupting the flow of electricity so that a message could be heard. • Morse code works very simply. Electricity is either switched on or off. When it is on, it travels along a wire. The other end of the wire the electric current can either make a sound or be printed out.
A B C D E F G H I J K L M
•– –••• –•–• –•• • ••–• ––• •••• •• •––– –•– •–•• ––
N O P Q R S T U V W X Y Z
–• ––– •––• ––•– •–• ••• – ••– •••– •–– –••– –•–– ––••
The full Morse code is based on combining dots and dashes to represent the letters of the alphabet. • See page 48 SAMUEL MORSE
THE INVENTION OF THE POSTAGE STAMP
1860 – First telephone
• In the early 1800s, postage in Britain was charged by distance and the number of sheets in a letter. The recipient paid for the postage not the sender.
German teacher Philipp Reis invents a simple telephone. Reis builds just 12 telephones before he dies. One of Reis’s telephones reaches a student at Edinburgh University. That student student is Alexander Graham Bell.
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• Samuel Morse invented Morse code in 1838. He first got the idea for the code in 1832 when he was told about experiments with electricity.
• A short electric current, a dit, is printed as a dot and a longer dah is printed as a dash.
1858 – Atlantic cable
•The TIMELINE continues on page 31.
MORSE CODE
The main pole of the telegraph was about 20 feet tall.
• In 1837, retired English schoolteacher Rowland Hill wrote a pamphlet calling for cheap,
standard postage rates, regardless of distance. • The British Post Office took up Hill’s ideas, and, in May 1840, issued the first adhesive postage stamps. • The stamps were printed with black ink and become known as Penny Blacks.
ALEXANDER GRAHAM BELL 1847 – 1922 Nationality: Scottish-born American Profession: Teacher and inventor Biographical information: Bell left school at 14 and trained in the family business of teaching elocution (public speaking). His family moved to Canada in 1870. He trained people in his father’s system of teaching deaf people to speak.
1861 – The pantelgraph The first fax machine is sold. It is called the Pantelgraph. Telegraphs can be sent from one end of America to the other.
1865 – Public fax The first public fax service opens in France, used to send photographs to newspapers.
Most famous inventon: Working at night with his assistant, Thomas Watson, he made the first working telephone in 1876. Inventors at work: The telegraph already used electricity to convey messages over long distances. The telephone had to turn sound into electricity and back again. Making it work was a challenge, which Bell and Watson solved by hard work over many months. Eureka moment: The first words spoken on a telephone were, “Mr. Watson, come here, I want you!” Bell was testing out his newly invented telephone when he spilt some chemicals on his clothes and called to his assistant for help.
THE INVENTION OF DIRECT DIALING • At first, telephone connections were made by operators pushing plugs into sockets. • In 1889, in Kansas City, undertaker Almon Strowger discovered that his local operator was married to a rival undertaker and was diverting his calls to her husband. • Strowger invented the first automatic telephone switch. The remote-controlled switch that could connect one phone to any of several others by electrical pulses.
TELEGRAPH & TELEPHONE TIMELINE
1866 – Atlantic cable
Alexander Graham Bell opens the New York to Chicago telephone line in 1892.
The ship, the Great Eastern, lays a second cable along the Atlantic seafloor.
1876 – Bell’s telephone Alexander Graham Bell invents the first successful telephone.
1878 – Thomas Edison American inventor Thomas Edison has also been working on a telephone, but Bell beats him to it. Edison invents a microphone that makes the voice of the person speaking much clearer to the listener.
1880 – First pay phone
Bell experimented for many years with different ways of sending and receiving spoken messages. This Gallows Frame transmitter was one of his earliest machines.
MOBILE PHONES AND TEXT MESSAGING 1973 — First mobile call The first call made on a mobile phone is made in April by Dr. Martin Cooper, general manager of Motorola. He calls his rival, Joel Engel, the head of research at Bell Laboratories.
Sharp in Japan. It is called the J-Sh04.
August 2001 The first month that over one billion text messages are sent by mobile phone.
1992 — First text The first text message is sent. It is reported that the message, “Merry Christmas,” was from Neil Papworth of Vodaphone.
There are now nine separate cables between America and Britain.
1892 – Direct-dial The first direct-dial telephones become operational.
1915 – First Atlantic call First telephone calls across the Atlantic.
1936 – COAXIAL CABLE The first coaxial cable is laid. This allows many telephone messages to pass along the same cable.
1963 – 160 MILLION The number of telephones in the world reaches 160 million.
2000 — Camera phone
1988 – FIBER-OPTIC CABLE
The camera phone is created by
VIDEO PHONES • The first videotelephone with a screen for moving pictures was invented by AT&T in 1964. It allowed people to look at the people they were calling.
The first pay-phones opened in New York.
• Using mobile phones to record videos started with the creation of 3G mobile phones by Dr. Irwin Jacobs in 2003.
The first fiber-optic cable is laid across the Atlantic. Now, telephone messages are carried on pulses of light.
For more information on Edison: • See page 36 EDISON’S PHONOGRAPH • See page 49 THOMAS ALVA EDISON
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R A D I O TIMELINE
COMMUNICATIONS GUGLIELMO MARCONI 1874–1937
1873 — Electromagnetic waves Scottish scientist James Clark Maxwell writes a paper about electromagnetic waves that can travel through the air. He could not prove they existed.
1887 — Heinrich Hertz German scientist Heinrich Hertz transmits a spark using a tuned antenna. He also proves James Clark Maxwell’s theory about the existence of radio waves, which are one kind of electromagnetic wave. However, the radio waves he created could not travel very far.
1894 — Marconi’s bell Marconi makes a bell ring using radio waves.
1897 — Shore to ship Marconi transmits a signal from land to a ship eighteen miles out at sea. The British Royal Navy shows a great interest in this new invention.
1901 — Atlantic signal Marconi sends a radio signal across the Atlantic Ocean.
1906 – Triode valve The triode valve is invented by Lee DeForrest. It makes radio signals more powerful.
1906 — First voice and music American scientist Reginald A. Fessenden transmits his voice and broadcasts music using radio waves. Before this, only morse code could be carried on radio waves. Following his groundbreaking achievement, Fessenden did not pursue his radio experiments.
1920 — First radio station The world’s first ever commercially licensed radio station, KDKA in Philadelphia, makes its first broadcast on November 2.
1923 — Atlantic voice The first ever broadcast of a voice across the Atlantic Ocean is from Pittsburgh to Manchester, UK.
1947 — Transistor The transistor is invented by engineers at Bell Laboratories.
1995 — Digital radio BBC radio stations, in the UK, begin digital broadcasting.
32
Marconi, in 1896, with an early apparatus.
Nationality: Italian Profession: Physicist Biographical information: Marconi attended Technical College in Italy, where he studied electricity and magnetism. After leaving college, he continued his experiments at the family farm but could find little support for his work in Italy. In 1896, he moved to England. Most famous invention: Marconi invented the first practical system of wireless communication using radio waves. In 1896, before leaving Italy, Marconi managed to transmit a radio signal over a distance of
about one and a half kilometres. In England he quickly increased the range to about 62 miles, and in 1899, made radio contact between Britain and France. Eureka moment: In 1901, Marconi successfully sent a radio message across the Atlantic Ocean, from Cornwall, England to St.John’s, Canada, a distance of more than 2,500 miles. Inventor at work: Marconi was awarded the 1909 Nobel Prize for physics. He continued to make numerous improvements to radio transmitting and receiving equipment.
RADIO ON THE MOVE
Nationality: Scottish Profession: Electrical engineer
Invented in 1947, the transistor replaced the valves inside radios that picked up radio signals. Transistors were much smaller than valves, so it now became possible to make portable radios.
Biographical information: Baird studied at the University of Glasgow where he first became interested in the idea of using radio waves to transmit pictures. At the time, most scientists considered such a system to be impossible.
October 18, 1954 The world’s “first pocket radio” goes on sale. The Regency TR1 is 5 inches high. About 100,000 TR1s are sold during the radio’s first year of production.
Eureka moment: Baird realized that pictures could be sent by radio if the images were broken down into a series of electronic impulses. He invented a mechanical scanner that, by 1926, was able to scan and transmit moving images. Most famous invention: In 1926, using equipment that he had made himself, Baird demonstrated the world’s first working television system.
Other inventions: Baird also demonstrated color television in 1928 and continued to work researching stereoscopic television.
SATELLITES 1955 A Japanese company called Tokyo Tsushin Kogyo build a portable radio for the US market. In 1958, before they begin selling the radio, they change the company name to Sony.
Televisor screen
1860s — Pantelegraph The Italian physicist, Abbe Giovanni Caselli, sends images over a long distance, using a system he calls the pantelegraph. Caselli’s system is the first prototype of a fax machine.
1873 — Pictures into signals Two British telegraph engineers, May and Smith, find a way of turning pictures into electrical signals.
1884 — Mechanical TV German engineer Paul Nipkow discovers television’s scanning principle. His invention, a rotating disc with spirals of apertures that pass successively across the picture, will make a mechanical television system possible.
1897 — Cathode ray tube
The televisor, a mechanical television set invented by Baird. Viewers watched the first television broadcasts on these sets.
THE ELECTRONIC PIONEERS
Much of our long-distance communication relies on the hundreds of satellites that are in orbit around the Earth.
Alan Campbell Swinton that it should be possible to both create and display pictures using a cathode ray tube.
• Each satellite receives a radio or television signal from one place and then transmits it onwards. • Most of the satellites are geostationary, which means they are traveling at the same speed as the Earth’s rotation and will always be at the same point in the sky.
• In 1991, British inventor Trevor Baylis invented the wind-up radio, enabling millions in the developing world, with no permanent electricity supply, to receive broadcasts.
• In summer 1962, the USA launched the Telstar satellite. • Telstar provided a radio and television link between Europe and America for just a few hours every day.
Vladimir Zworykin, vice president of RCA, c 1951
Baird is credited with the invention of television, but the systems we use and the TVs we watch today owe much to earlier inventors (see timeline, right) and to two pioneers of the electronic television, Zworykin and Shoenberg. Vladimir Zworykin • Russian born Vladimir Zworykin emigrated to the USA in 1919.
Inventor Trevor Baylis with his clockwork radio.
In 1936, he demonstrated his mechanical system to the BBC, but they chose an electronic system from EMI.
TELEVISION TIMELINE
Karl Ferdinand Braun, a German physicist, invents the first cathode ray tube. This is used in modern television cameras and TV sets.
1906 — 1907
CLOCKWORK RADIO
• The radio works by winding up a spring, which slowly uncoils and powers a small generator.
JOHN LOGIE BAIRD 1888–1946
A 1962 Sony transistor radio with wind up watch and alarm.
• Zworykin was the first to take up the suggestion by Scottish engineer
Telstar
• In 1931, heading a team at RCA, Zworykin created the first successful electronic camera tube, the iconoscope.
Isaac Shoenberg • Russian-born Isaac Shoenberg also emigrated to Britain in 1914. • In 1936, working with a team at Electrical and Musical Industries (EMI), Schoenberg used Zworykin’s basic idea to develop the Emitron tube which formed the heart of the cameras demonstrated for the BBC.
The winning system In 1936, EMI’s all electronic system was demonstrated to the BBC and was chosen over the mechanical system demonstrated by Baird. Except for some specific differences, the EMI system is the one in use today.
Boris Rosing of Russia develops a system combining the cathode ray with a Nipkow disc, creating the world’s first working television system. In 1907, Rosing transmits black and white silhouettes of simple shapes.
1924 — First moving image The Scottish engineer John Logie Baird is the first to transmit a moving image, using a system based on Nipkow’s disc.
1925 — First face on TV Baird transmits recognizable human faces.
1926 — Moving objects Baird demonstrates the televising of moving objects at the Royal Institute.
1936 — BBC The BBC (British Broadcasting Corporation) starts the world’s first public television service in London.
1951 — Color TV The first color television transmissions begin in the USA.
1989 — Satellite TV The first satellite television stations are launched with four channels.
1998 — Digital TV First digital satellite television stations launched.
33
HOME INVENTIONS TIMELINE 1740 – Franklin stove American Benjamin Franklin invents a simple, cast-iron stove, similar to modern-day woodburners, for warming homes.
1792 – Gas lighting In 1792, Scottish engineer William Murdock invents gas lighting. He heats coal in a closed vessel and then pumps the gas to lights around his cottage in Cornwall, England.
1830 – Lawnmower Patented in 1830, Edwin Budding’s cylinder lawnmower makes lawns available to all homes. Before this, only people with a gardener or flock of sheep could maintain a lawn.
1844 – Refrigerator American doctor John Gorrie builds a machine that uses compressed air to provide cooling air for feverish patients in his hospital. In 1851, he receives the first US patent for mechanical refrigeration.
c 1860 – Linoleum British rubber manufacturer Frederick Walton invents linoleum, a washable floor covering made from cloth covered with a linseed oil and pine resin substance.
1907 – Washing machine US inventor Alva Fisher invents the first electric washing machine. The machine has a drum that tumbles the clothes and water backward and forward. The machine is called the Thor.
1919 – Pop-up toaster
HOME AND FASHION
W
hile most home and fashion-related inventions could not claim to have changed our world, they have certainly made it more colorful, comfortable, and clean. Today, we wear clothes and shoes made from a variety of different materials. We take it for granted that electric lights will illuminate our homes, that chilled food and drinks will stay that way in the refrigerator, and that the toilet will flush.
THE INVENTION OF THE DYSON • In 1978, British inventor James Dyson noticed that the dust bag in conventional vacuum cleaners quickly clogged up. • Dyson had the idea of making a bagless cleaner. It used centrifugal force to suck dust into a plastic cylinder. • Five years and 5,127 prototypes later, Dyson was finally making and marketing a vacuum cleaner called the Dyson Dual Cyclone. The Cyclone was first real breakthrough since the vacuum cleaner’s invention in 1901. The Dyson DC15
as Thomas Crapper, began to develop the toilet further and produce the items we recognize today.
• In 1596, he published a humorous work entitled The Metamorphosis of Ajax (a play on the word jakes, slang for lavatory). It included diagrams of a flushing toilet, or water closet.
• Crapper registered a number of patents, including a spring-loaded toilet seat that lifted as soon as the user stood and pulling rods that automatically flushed the pan.
• Harrington’s toilet design had a bowl, a seat, and a cistern of water for washing away the toilet’s contents. • Harrington built just two of his toilets, one for himself and one for the queen at Richmond Palace. THOMAS CRAPPER • In the 1800s, toilet pioneers, such
• Working independently, Sir Joseph Wilson Swan and Thomas Edison each invented a light bulb.
1946 – Microwave oven In 1945, US engineer Percy LeBaron Spencer invents the microwave oven. While working on radar, Spencer makes the discovery that powerful microwaves had melted some chocolate in his pocket.
34
FIRST FLUSHING TOILET • Sir John Harington was a British writer. His godmother was Queen Elizabeth I.
TOILET PAPER • American Joseph Gayetty is credited with inventing toilet paper in 1857. Before Gayetty’s invention, people tore pages out of mail order cataloges. • In 1880, the British Perforated Paper Company invented a type of toilet paper. The shiny paper came in small sheets in a box.
THE LIGHT BULB
US inventor Charles Strite invents the first toaster to automatically stop toasting and pop out the toast when it is ready. It will be nine years before Otto Rohwedder invents sliced bread.
• See page 44 DOMESTIC ROBOTS
TOILET INVENTIONS
• See page 56 VACUUM CLEANER
• Swan, a British inventor, is best known for his incandescent-filament electric lamp of 1879. It gave off light as an electric current
passed through its carbon filament contained in a glass bulb. • In America, Edison had the same idea. By 1880, he and Swan had developed efficient, long-lasting, light bulbs. In 1883, they formed the Edison & Swan Electric Light Company.
THE INVENTION OF JEANS The invention of jeans is basically the story of Levi’s® 501® Jeans. • Levi Strauss ran the San Francisco branch of his brothers’ dry goods business and supplied cloth to Jacob Davis, a tailor.
THE INVENTION OF ATHLETIC SHOES
• The word jeans was coined around 1960.
The adidas® Hyperride
• To cure the problem of his customers ripping their work pants, Jacob came up with the idea of using metal rivets to strengthen the points of strain. This was a great success. • Needing money to patent his invention, Jacob teamed up with Levi. On May 20, 1873, the two men received patent no.139,121 from the US Patent Office. Blue jeans were born. • Around 1890, the waist overalls, as they were
BABY FASHION
• In 1948, he introduced adidas (a combination of his names) as the company name, and a year later he registered the unmistakable ‘Three Stripes’.
called, were assigned the number 501.
Adolf (Adi) Dassler made his first shoes in 1920. He was just 20 years old. Dassler’s vision was to provide every athlete with the best footwear for his or her discipline.
• In 1954, when Germany won the World Cup in soccer, the team were wearing shoes with screw-in studs, made by adidas.
• Athletes wore special shoes from his workshop for the first time at the 1928 Olympic Games held in Amsterdam. • By the mid 1930s, Dassler was making 30 different shoes for 11 sports, and his company was the world’s leading sports shoe manufacturer.
Vintage Levi 501s
THE INVENTION OF NYLON
US engineer Vic Mills did not like the cloth diapers worn by his grandaughter, so he challenged the US company Procter & Gamble to find a solution to the problem.
While a professor at Harvard University in 1928, Wallace Carothers was hired by the chemical company DuPont. Carothers’ mission was to, “Get rid of the worms!”
In 1961, after years of testing, diapers called Pampers® were sold.
Dupont wanted Carothers to make a substitute for silk, the fine and very costly fiber that is spun by silkworms.
1928 – A SILK SUBSTITUTE
Carothers set to work with a team of eight people, including scientist Julian Hill.
1930 – INVENTING PLASTICS The team’s first breakthrough was neoprene, and soon after, a plastic
called 3-16 polymer. When Hill dipped a rod into 3-16, he could pull out a thread. The more he stretched the thread, the stronger it became. The threads were springy as silk, could be made from oil, water, and air and no silkworms were required.
1934 – NYLON The 3-16 polymer was not suitable for cloth production, since ironing melted it, but by tweaking the recipe they produced the “artificial silk” required. Five more years of research and the newly-named nylon was ready to go.
Adi Dassler in his sports shoes factory.
GORE-TEX In 1969, American inventor Bob Gore discovered that a new material could be produced from the polymer polytetrafluoroethylene (PTFE). He invented GORE-TEX, the world’s first completely waterproof, windproof and breathable fabric. Many other fabrics could repel water, but they did not breathe, so the wearer still got wet inside their clothing from the moisture produced by their own body. GORE-TEX has now been worn by Antarctic explorers and even space shuttle astronauts!
THE MACKINTOSH In 1823, the Scottish chemist Charles Macintosh invented a method of using rubber to produce waterproof cloth. His name (misspelled as mackintosh or shortened to mac) becomes the popular name for a raincoat. They are known as slickers in the US.
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RECORDED MUSIC TIMELINE 1877 – First recording On December 6, the first sound recording is made by American inventor Thomas Edison on a machine called a phonograph at his Menlo Park laboratory in New Jersey.
1887 – Going flat The first recording machines use cylinders made from tinfoil or wax. In 1887, Emile Berliner invents the gramophone. It records sound as a groove on a flat metal disc.
1898 – Magnetic recording In Denmark, Valdemar Poulsen invents a new way of recording. His telegraphone machine records sound by magnetizing a steel wire.
1931 – Tape recorder The first tape recorders are built. Instead of steel wire, they use magnetic tape. The public sees tape recorders for the first time in Berlin in 1935.
1963 – Cassette tape The first tape recorders use tape that has to be threaded through the machine by hand. Then, in 1963, Philips produce the compact cassette, which is simply put in the recorder and played.
1960s – Portable music Early tape recorders are the size of a suitcase. Then, in the 1960s, small battery-powered cassette recorders let people carry recorded music about with them. Soon, recorders are not much bigger than the cassette tapes they play.
1982 – Compact discs Compact discs (CDs) go on sale. Music is recorded as microscopic pits in the silver-colored discs.
1998 – Downloading The first MP3 player, the MPMan, lets people download music files from the World Wide Web.
2001 – The iPod® Apple launches its own MP3 player, the iPod. As of September, 2005, Apple has sold over 21 million iPods.
• See page 49 THOMAS ALVA EDISON
36
LEISURE AND TOYS
I
n the past, hobbies were limited by the amount of free time available to people. Toys were primarily simple adaptations of everyday items. Now, people have much leisure time and spending power. For the past 150 years, inventors and innovators have used their talents to entertain us and satisfy our demands, from simple toys like building blocks, to the latest equipment for downloading music.
MUSICAL INVENTIONS c 1700 – Clarinet The German musician and instrument maker Johann Denner develops the clarinet from an earlier musical instrument, called the chalumeau.
1709 – Piano Italian harpsichord builder Bartolomeo Cristofori invents a touchsensitive harpsichord. This new instrument will eventually become the piano. Harpsichords plucked their strings, but Cristofori’s new instrument
hits the strings with hammers, so the harder the keyboard was struck, the louder it played.
1948 – Longplaying record
SCRABBLE®
MONOPOLY®
When he lost his job as an architect during the Great Depression in 1931, Alfred Mosher Butts invented the game Scrabble. Butts calculated the letter frequency and points value for each letter by counting the frequency of letters on the front page of the New York Times.
Monopoly was invented by American Charles B. Darrow. He sold his idea to Parker Brothers in 1935. Monopoly was a similar concept to Lizzie G. Magie’s Landlord’s Game, patented 1904. Magie’s game was devised as a way to highlight the potential exploitation of tenants by greedy landlords.
Edison’s phonograph, the first sound recording machine
EDISON’S PHONOGRAPH • Shouting into the horn of Edison’s phonograph (see above) made a needle vibrate and scratch a groove into tin-foil wrapped around a spinning cylinder. • When the needle was moved back to the beginning of the cylinder, the groove made the needle vibrate.
1949 – 45rpm single
• The tiny vibrations were made loud enough to hear by the machine’s horn, recreating the original sound.
• Old recording machines made a copy of music on a tape or disc. If the recording was not perfect, crackles and hisses would be heard. • Digital recording is different. The music is changed into numbers. It is the code that is recorded.
• Ibuka wanted something businesspeople could use to relieve the boredom of long flights without disturbing other passengers. • In June 1979, the Walkman was launched.
The Diamond Rio is typical of the first generation of MP3 players.
• A CD or MP3 player reads the code and uses it to create the music. Crackles and hisses that are not part of the code are ignored, so the music is perfect.
Frenchman Étienne-Jules Marey is the first person to take a series of photographs quickly with one camera. The gun-like camera takes 12 photographs on a paper disc in one second. It was the forerunner of the movie camera.
1888 – First film The first film is shot in Leeds, England, by Frenchman Louis Aimé Augustin Le Prince. It shows traffic crossing a bridge.
LEGO® In 1955, under the leadership of Godfred Kirk Christiansen, Lego launched the LEGO system of play that included LEGO automatic binding bricks. Christiansen’s father, Ole Kirk, started the toy-making business in 1932. Today, approximately seven Lego sets are sold each second.
KALEIDOSCOPE The kaleidoscope was patented by Scottish physicist Sir David Brewster in 1817. Kaleidoscopes use mirrors to reflect images of pieces of coloured glass in geometric designs. The design can be endlessly changed by rotating the end of the kaleidoscope.
1891 – Kinetoscope The American inventor Thomas Edison invents a machine called a Kinetoscope for showing films. Only one person can see the film at a time.
1895 – Cinema is born The French brothers, Auguste and Louis Lumière, show films to the public for the first time. Cinemas quickly spread throughout France and all over the world.
1927 – Talkies
DIGITAL MUSIC
• In 1979, Sony engineers took just four days to create a prototype, pocket-sized tape player with earphones, an idea devised by Masura Ibuka, the head of Sony.
1882 – Camera gun
American minister, Hannibal Goodwin, uses a strip of flexible film instead of light-sensitive paper to record images. Film quickly replaces paper.
In January, 1863, James Leonard Plimpton patented a four-wheeled roller skate that was capable of turning. Plimpton built a rollerskating floor in the office of his New York City furniture company.
BARBIE®
THE WALKMAN
AT THE MOVIES TIMELINE
1887 – Paper to film
ROLLERSKATE
Engineer Peter Goldmark develops a vinyl disc for Columbia Records that can play 25 minutes of sound each side.
RCA Victor brings out the single, a 7 inch record that holds one song on each side at a spead of 45 rotations per minute.
INVENTIONS FOR FUN
Barbara Millicent Roberts, or Barbie, as she is better known, was launched in 1959 by California toy company Mattel, Inc. Mattel calculates that every second, two Barbies are sold somewhere in the world.
INVENTION OF BASKETBALL Basketball was invented in December, 1891, by James Naismith, a physical education instructor in Springfield, Massachusetts. Basketball gets its name from the two bushel baskets (used for collecting peaches) that Naismith used as the goals.
INVENTING SPECIAL EFFECTS • A new type of camera, called a motion control camera, was invented to make the first Star Wars movie in 1977. • A motion control camera is a camera moved by a computer. The computer is programmed with the camera’s movements, so the camera
can go through exactly the same movements again and again. • The camera films models of spacecraft and planets, one by one. Then, all the separate images are combined to form one scene.
Warner Brothers make the first feature film with sound. It is called The Jazz Singer . Sound movies were called talkies .
1993 – Computer characters Jurassic Park featured the most realistic computer-generated images (cgi) ever seen in a movie. Cgi was used to create life-like dinosaurs, which were blended with live action.
1995 – Computer movies Pixar makes the first totally computer-generated movie, Toy Story .
2001 – Digital movies The first movie shot entirely using digital cameras is Star Wars: Attack of the Clones.
37
GROWING FOOD TIMELINE 1492 – New foods Columbus discovers America. In the next two hundred years, potatoes, maize, tomatoes, tobacco, and cocoa reach the rest of the world.
1701 – Seed drill Jethro Tull invents the seed drill in England. The drill sows seed in straight lines.
FOOD AND DRINK
F
1834 – Reaping machine American Cyrus McCormick invents the horse-drawn reaping machine, which replaces workers using sickles and scythes to cut corn and make hay.
INVENTING THE SANDWICH • The sandwhich was invented in the 18th century by Englishman John Montagu, the 4th Earl of Sandwich.
1837 – Steel plow American John Deere invents the steel plow that can plow the soil of the American midwest without clogging. This makes it possible for people to settle and farm in this region.
1854 – Threshing machine An improved American threshing machine can thresh 74 times more wheat in half an hour that a single worker.
• In 1762, Montagu played cards for 24 hours nonstop. It is believed that he ate beef between slices of toast so one of his hands was free to play cards at all times. Montagu’s convenient snack was named the sandwich after the inventive earl.
1873 – Barbed wire American Joseph Glidden perfects barbed wire, which makes fencing cheap.
1917 – Ford tractor First mass-produced tractor made by Ford in 1917.
• See page 17 THE STORY OF GENETIC ENGINEERING: GM CROPS
38
• On May 8, 1886, a jug of Permberton’s syrup was sampled at Jacobs’ Pharmacy and pronounced, “Excellent” by the lucky “guinea pigs” who were gathered there. Carbonated water was added to the syrup to produce a drink that was both “delicious and refreshing.” The new product was immediately put on sale for five cents a glass.
The famous Coca-Cola trademark was penned in Robertson’s unique script.
Nationality: French Profession: Scientist Biographical information: The young Louis Pasteur did not impress as a student, but classes given by a brilliant chemistry teacher were to change his life. After studying at the famous École Normale Supérieure in Paris, he became the Dean of the Faculty of Science at the University of Lille. Eureka moment: While studying the fermentation process of wine and vinegar, he made his greatest discovery. Fermentation and decay are caused by microscopic living
organisms. By heating wine to about 140º F, he killed off the unwanted yeast cells that caused the product to spoil. Most famous discovery: Pasteur showed that invisible organisms can spoil food and cause disease. Pasteurization, the process he invented of making liquids hot enough to kill any harmful organisms without destroying their food value, is still used today, particularly in milk production. It is used to kill bacteria that can cause tuberculosis in humans. Other discoveries: Vaccinations,
Most famous invention: When food is frozen slowly, long, sharp crystals of ice are formed which cut into the food causing it to break up when defrosted. It took Birdseye eight years to work out how to chill food quickly enough to stop the daggers of ice forming. By 1930, Birdseye’s machine which squeezed pre-packed food between two very cold plates was ready to go into
• In 1894, while experimenting with boiled wheat, he discovered that when crushed between rollers, wheat that had been previously soaked for a long time broke into flakes.
Clarence Birdseye (in the white lab coat) experiments with a huge dehydration machine.
production. However, home freezers were still very rare.
• See page 23 EDWARD JENNER
• 20 years later, Will Kellogg was a cornflake tycoon and one of the richest men in America.
CHOCOLATE DISCOVERY & INVENTION TIMELINE c 1000 BC Chocolate is produced from cocoa beans. It is believed that the Olmec Indians of Central America were the first to grow cocoa beans as a crop.
Early 1500s Christopher Columbus and later the Spanish explorer Hernando Cortez record seeing cocoa being used and bought and sold during their explorations in the Americas.
1544 Mayan nobles bring gifts of ready-to-drink, beaten chocolate to Prince Philip of Spain. It will be 100 years before Spain and Portugal export the drink to the rest of Europe. The Spanish add cane sugar and vanilla to their cocoa drink, and coca becomes popular as a medicine.
Late 1600s Eating solid chocolate is introduced in Europe in the form of rolls and cakes, served in chocolate stores.
1753
THE INVENTION OF THE CHIP
• Chef George Crum fries up a serving of paper-thin, crunchy, crisp potatoes. Called Saratoga Chips, they quickly became a favorite. Crum invents the potato chip!
including a vaccine for the killer disease rabies, developed from the brain tissue of infected animals. Pasteur cured a boy who had been bitten by a rabid dog and was hailed as a hero.
• Toasted Corn Flakes were sold first by mail order and then through shops. In 1906, Will parted company with his brother John who objected to the addition of sugar and salt to the cereal.
It would be 1955, before Birdseye’s invention was finally a worldwide success.
• At a Saratoga Springs resort, New York, in 1853, customer Cornelius Vanderbilt complains that his fries are too thick.
LOUIS PASTEUR 1822–1895
1860 – Milking machine With modern improvements of the milking machine, a farmer can milk six cows at a time and milk an entire herd without help.
• The inventor’s partner, Frank M. Robertson, suggested the name Coca-Cola and correctly thought that, “the two Cs would look well in advertising.”
Eureka moment: In Labrador, in 1912, Birdseye watched native Americans fishing through holes chipped in an icy lake. As fish were pulled out, they were immediately frozen by the intense cold air. Birdseye realised that speedy chilling solved the main problem with frozen food—ice.
INVENTING THE CORNFLAKE • American Will Kellogg worked at his family’s health resort that promoted healthy vegetarian food.
Biographical information: Clarence Birdseye was born in Brooklyn, New York in 1886. He studied biology at college, but left to work as a field naturalist for the US government in northern Canada.
INVENTING COCA-COLA • Described as the world’s “best known taste,” the drink we now know as Coca-Cola® was invented by pharmacist Dr John Stith Pemberton, in Atlanta, Georgia.
Nationality: American Profession: Naturalist
ood and drink are essential needs for every human being. Without them, we would die. Just like everything else, however, that doesn’t stop human beings from experimenting with and inventing new foods, new tastes, and new ways to grow, prepare, and store our food. Today, because we know that too much fat and sugar are bad for us, scientists are hard at work making our favorite foods and treats more healthy.
1701 – Fertilizer The first guano (seabird manure) brought to Europe from South America is used as fertilizer.
CLARENCE BIRDSEYE 1886–1956
• Chips as we now know them became popular in the 1920s when Mrs. Scudder mass produced them and sold them in waxed paper bags. • In 1926, Lay’s potato chips were the first successfully marketed national brand.
CHOCOLATE CHIPS BY ACCIDENT • One day in 1930, while preparing a batch of Butter Drop Do cookies, American Ruth Wakefield substituted a semi-sweet Nestle chocolate bar, cut up into bits, for the usual cooking chocolate she used in her cookie recipe. • Unlike the cooking chocolate, the pieces of chocolate did not melt when they were baked, they only softened. The chocolate chip cookie was born.
Swedish naturalist Carolus Linnaeus, dissatisfied with the word cocoa, renames it theobroma, Greek for food of the gods.
1765 Irish chocolate-maker John Hanan imports cocoa beans to the USA. Hanan and fellow American Dr. James Baker build America’s first chocolate mill making Baker’s chocolate.
1828 Conrad Van Houten invents the cocoa press.
1847 Joseph Fry and Son create a paste that can be molded to produce the first modern chocolate bar.
1876 Milk chocolate is invented by Daniel Peter of Vevey, Switzerland after eight years of experimenting.
39
THE COMPUTER
COMPUTERS TIMELINE 1822 – Charles Babbage Charles Babbage, a mathematician and inventor, draws up plans for his Difference Engine that will cataloge a whole series of calculations. Babbage also conceives of a general purpose machine called the Analytical Engine (a modern computer, as understood today). Unfortunately, it will never be completed.
1890 – US Census Government staff takes seven years to analyze the 1880 US Census results. Herman Hollerith patents a machine in 1884, the Hollerith Census Tabulator, which analyzes the 1890 census in just six weeks.
1937 – Programmable computer Howard Aiken of Harvard University, in collaboration with IBM, develops Harvard Mark 1. After experimenting with electromagnetic relay circuits and vacuum tubes (switches with no moving parts), Aiken is able to build something like Babbage’s Analytical Engine.
1941 – Konrad Zuse
C
omputers are now used in nearly every part of our lives, and yet the computer has only been around for about 80 years. One hundred years ago, mechanical machines that did calculations were used, but it was only at the end of the 1930s that electronic computers appeared. The first computers were large machines designed for use in laboratories, in industry, and for defense. Once The Apple Macintosh, or Mac, was the first computer to have computer could fill up a whole room. In 1974, it what is known as a desktopbecame possible to have a computer in your home. type screen with icons.
ANCIENT COMPUTER
• This early counting machine made up of beads on rods can be said to be the first step in the development of the computer.
As part of the wartime project to break enemy codes, the British government builds Colossus, the first electronic digital computer.
1947 – Transistor The invention of the transistor leads IBM to re-engineer its early machines from electromechanical, or vacuum tube, to transistor technology in the 1950s.
1954 – Business computers IBM produces the IBM 650, a low cost ($200,000) magnetic drum computer, eventually selling 1,800 models.
• The timeline continues on page 41.
40
ENIAC
1951 – UNIVAC 1 The world’s first electronic computer goes on sale. It was created by John Eckert and John Mauchly. It was used by the US government to help gather material for the national census.
1943 – Colossus
The first totally electronic computer. It was designed for the specific purpose of computing values for artillery range tables.
1946 – ENIAC Electronic Numerical Integrator and Computer is the first electronic and programable computer. It contained over 17,000 vacuum tubes. Eniac occupied a room 50 feet by 30 feet.
THE POTENTIAL OF AN INVENTION At first, not everyone could see the computer’s potential. “I think there is a world market for maybe five computers.” – Thomas Watson, Chairman of IBM, 1943. “There is no reason anyone in the right state of mind will want a computer in their home.” – Ken Olson, President of Digital Equipment Corp., 1977.
INVENTIONS FOR THE COMPUTER 1964 — Inkjet printer
1991 — Digital camera
The first inkjet printer is invented. Inkjet printers spray fast-drying ink on paper.
Kodak produces the first digital camera, the DCS100. The photos have to be stored in a separate piece of equipment.
1965 — Mouse
A factory worker makes vacuum tubes. VACUUM TUBES The main electronic parts of early computers were called vacuum tubes, or simply valves, because they controlled the flow of electricity.
US engineer Doug Engelbart and his team at the Human Factors Research Center of the Stanford Research Institute, design and develop the computer mouse.
Today’s digital cameras collect more than 5 million separate pieces of information every time you take a picture.
1976 — Laser printer
Computer mouse
First laser printer introduced.
Today, a computer is in almost every electrical item we use.
Transistors are made of materials called semiconductors. 1947 – TRANSISTORS The first prototype transistor was invented at the Bell laboratories in the USA. The transistor acts as an electronic switch, and once it is perfected in the 1950s, quickly replaces the vacuum tube.
COMPUTERS TIMELINE 1959 – First minicomputer Digital Equipment Corporation produce an early minicomputer the PDP-1. Selling for $120,000, it was a fraction of the cost of mainframe computers. The later model PDP-8 in 1965 uses the recently invented integrated circuit and sells for $20,000.
1967 – Computer keyboard Keyboards are used for data entry.
1968 – INTEL
COMPUTERS ALL AROUND
THE FIRST COMPUTERS
• The abacus was invented in the period 3000–1000 BC by the Babylonians (ancient race of people living in the area that is modern-day Iraq).
German engineer Zuse builds first “true” computer. It is controlled by a program and uses binary form.
1946 – ENIAC
TIMELINE OF KEY DEVELOPMENTS
MOBILE PHONE The computer in a mobile phone determines the closest transmitter to your current position. CAR An in-car computer controls the most economical use of gas in most modern cars. VIDEO CAMERA All modern video cameras include an
auto focus function that examines what it can see, detects the edges of each item coming through the lens, and adjusts the focus to keep pictures sharp. AIRPLANE There are probably more computers in an airplane than any other vehicle. Computers control everything from the speed and height of the plane, to the running of the in-flight movie and the cooking of any meals served.
Intel is formed. The company will grow to become one of the world’s largest and most important computer processor manufacturers.
1970 – Floppy disk The floppy disk produced by IBM.
1971 – Microprocessor The first microprocessor is produced.
1974 – Personal computer The first personal computer, the Altair 8800, goes on sale. It is sold as a kit, so the customer has to put the computer together before they use it.
1975 – Microsoft® Bill Gates and Paul G. Allen form Microsoft and adapt BASIC language for use on the Altair PC.
1976 – Apple®
ALAN TURING 1912–1954 Nationality: British
UNIVAC
1977 – Apple II The first successful personal computer goes on sale. It was made by Apple® Computers, Inc. It was the first computer to have a color screen and its own keyboard. 1983 – Apple Lisa The first computer, also created by Apple, to use a mouse and pulldown menus. APPLE II
This microchip, held in the jaws of an ant, contains thousands of components. 1960s – MICROCHIPS In the late 1960s, the integrated circuit was developed. Thousands of transistors and other electric components could be built onto a tiny silicon chip, or microchip.
1968 – MICROPROCESSORS In 1968, Ted Hoff of Intel was asked to come up with a design for a new calculator chip that could do several jobs at once. He came up with the idea of the microprocessor. Launched in 1971, the microprocessor made it possible to build much smaller computers.
Profession: Mathematician and computer expert Biographical information: Turing was born in 1912. He had a gift for mathematics, which he studied at Cambridge University. Eureka moment: In 1924, university student Alan Turing wrote an essay in which he described a machine that is the basis of all computers in the world today. It was the first idea for a computer to include memory, a processor, and a way of storing information on tape. Most famous invention:
Turing’s work as a mathematian was stopped by World War II. He was taken to Bletchley Park, in England, where he led a team trying to find a way to crack the Enigma code used by Germany, Italy and Japan. In 1943, Turing designed a computer called the Colossus that helped to decipher the German codes, which helped to win the war. Other inventions: After World War II, Turing continued working on computers. In 1950, he wrote an article in which he said that a computer could have the same intelligence as any person. .
Apple Computers is founded by Steve Wozniak and Steve Jobs.
1981 – IBM® pc IBM launches their Personal Computer (IBM PC), which uses Microsoft Disc Operating System (MS-DOS).
1982 – CD Philips Electronics and Sony Corporation work together to invent the CD.
1984 – Macintosh® Apple launches the Macintosh Computer, designed to appeal to those who are not computer experts.
1985 – Windows® Microsoft releases the first version of the operating system, called Windows.
1995 – Windows 95 Microsoft releases Windows 95, which fully integrates MS-DOS with Windows.
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I N T E R N E T TIMELINE 1960s–1980s – Arpanet A team at the US Advanced Research Projects Agency (ARPA) develop a communications network between researchers and scientists in the US. Other organizations will join the network throughout the 1970s and early 1980s, and the network will grow and grow.
1971 – The first email
INTERNET AND GAMES
T
he Internet is a worldwide collection of computers connected by cables, telephone lines, and satellites. It allows people to send electronic messages, called emails, to anyone else who is connected, interact with other computer users wherever they are in the world, and to look at information created by both large organizations and private individuals, via the World Wide Web.
Vint Cerf and Bob Kahn design the Internet – a network of computers and cables. They also define the IP (Internet Protocol), the way information is be sent on the Internet.
1979 – Emotions Adding emotions to email messages is suggested, such as –) to show something is ‘tongue in cheek’. By the early 1980s :-) and :-( are in widespread use.
1980 – First virus The first virus is accidentally released onto ARPAnet, bringing the whole network to a halt.
1983 – The Internet The Internet is launched and made available to everyone. The Domain Name System (DNS) takes you where you need to be on the Internet using a web address. DNS is invented by Paul Mockapetris. Computer expert Fred Cohen invents the term computer virus.
1987 – MP3 files The development of the MP3 file format begins at the Fraunhofer Institut in Germany. It allows music and speech recordings to be compressed and will be used by many people on the Internet to easily copy and trade their music collections.
• The INTERNET TIMELINE continues on page 43.
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TIM BERNERS-LEE Profession: Computer scientist Biographical information: Berners-Lee was born in London, England in 1955. Interested in computers, he went to Oxford University. While at Oxford, he built his own computer from old electronic parts of a TV. Both of his parents worked in the computer industry. Eureka moment: Berners-Lee developed a program called Enquire to help him access varied pieces of information needed in his work. The information was stored in files that contained connections, called hypertext links. Most famous invention: The World Wide Web. In 1989, while working at CERN (European Centre for Nuclear Research) in Geneva, Switzerland, Berners-Lee wrote a program that allowed CERN’s scientists to share their work
• The first test message was sent between two machines that were physically next to each other, but only connected by ARPAnet. TIM BERNERS-LEE
through a global hypertext document system. The Web was released to the world via the Internet in 1991. Other inventions: In 1994, Berners-Lee founded the World Wide Web Consortium. The consortium’s goal is to lead the Web to its full potential in the future.
INVENTING THE INTERNET • Internet pioneers Vint Cerf and Bob Kahn invented the Internet Protocol, the way of sending little “packets” of information through the Internet network. • A packet is like a postcard containing information.
INVENTION OF EMAIL In 1971, US computer scientist Ray Tomlinson created a computer program for sending messages on the ARPAnet network. The program would become email, one of the main ways of communicating on the Internet.
Nationality: English
• If the packet has the right address, it can be given to any computer connected to the Internet, and the computer can figure out which cable to send the packet down so it gets to where it needs to go.
PONG
• In 1993, the world’s first user-friendly web browser, called Mosaic, was developed by American Mark Andreessen and a team at the US National Center for Supercomputing Applications (NCSA).
• In 1972, the Atari Corporation was founded by US computer engineers Nolan Bushnell, Ted Dabney, and Al Alcorn.
• Today, Tomlinson cannot remember what the first email said, but he jokes it was probably just something like, “QWERTYUIOP” (the top line of letters on a keyboard). • Probably the first email message sent to another person on ARPAnet was one announcing the new service and telling people to use @, the symbol Tomlinson chose to separate user names from host computer names.
@
produced in a home version.
Robert Morris, a US science student unleashes an Internet worm (a program that propagates itself across a network) onto the Internet. The Morris Worm brings 6,000 computers to a halt.
1989 – Inventing www
• Two on-screen paddles hit a ball back and forth across the screen.
Tim Berners-Lee invents the World Wide Web—a way for computer users to access many different types of information from different sources.
• Pong became hugely popular as an arcade-style, coin-operated game, and went on to be
• By 1994, Mosaic had several million users.
I N T E R N E T TIMELINE 1988 – Internet worm
• In 1972, Bushnell and team invented the video game Pong, based on ping-pong (table tennis).
• Mosaic used a point-andclick application that made it easy for people to navigate the World Wide Web.
The first email is sent by computer engineer Ray Tomlinson.
1973–1974 – Inventing the Internet
MOSAIC
1970s poster advertising the revolutionary new game, Pong.
1991 – WWW on the net The World Wide Web is launched and made available to the world via the Internet.
1992 – Surfing
TIMELINE: INVENTION OF COMPUTER GAMES 1889 — NINTENDO®
1977 — MISSILE ATTACK
1989 — NINTENDO GAMEBOY
The Nintendo company is founded in Japan. It makes playing cards.
Mattel releases the first handheld game, but it uses small lights rather than a screen to display graphics.
Video games go handheld with the release of the first Nintendo Gameboy.
The term surfing the Internet is used for the first time, by American librarian and Internet expert Jean Armour Polly.
1994 — PLAYSTATION®
1993 – Mosaic
Sony releases the PlayStation, but only in Japan. It reaches the rest of the world the following year.
The first web browser is created. It is called Mosaic.
1958 — FIRST “COMPUTER GAME” William A. Higinbotham of the Brookhaven National Laboratory in New York uses an analog computer, control boxes and an oscilloscope to create Tennis for Two, a game to amuse visitors to the laboratory.
2000 — PLAYSTATION 2 It is even more successful than the original PlayStation, selling out worldwide within days.
1962 — SPACEWAR! A team at the Massachusetts Institute of Technology (MIT), invent a game as part of a program to demonstrate the new PDP-1 computer. The game, which would now look extremely simple, involves players moving spaceships and firing torpedoes.
1972 — PONG Atari creates Pong.
Nintendo sells its one hundred millionth Gameboy.
2002 – X-BOX® 1980 — BATTLEZONE
Microsoft enters the console market as it launches the X-Box.
1994 – Yahoo!® The Yahoo! search engine is created in April 1994 by David Filo and Jerry Yang, two PhD students at Stanford University, in California. They invent the directory as a way of keeping track of their interests and finding websites for their friends.
1995 – Internet Explorer® Launched in July 1995 as part of the Windows 95 package, Internet Explorer 1.0 helps make the Internet accessible to more people.
1995 – Online music
The first 3D game is produced. Battlezone is such a breakthrough that the US government uses it to train troops.
• See page 54 OSCILLOSCOPE
RealAudio® is launched. This software makes it possible for Internet users to listen to live music and radio stations online.
1995 – Online bookstore
A FAST-GROWING INVENTION In 1998, the US Department of Commerce report The Emerging Digital Economy stated that, “The Internet’s pace of adoption eclipses all other technologies that preceded it.” When radio was invented, it took 38 years to reach 50 million users. The Internet took just 4 years.
Number of years to reach 50 million users worldwide.
Amazon.com® is launched by US computer scientist Jeff Bezos. The company is started in Bezos’ garage.
2000 – Web movie The science-fiction movie Quantum Project is the first movie made specifically to be seen on the Internet instead of in a movie theater.
2002 – Internet users
Radio 38 years
TV 13 years
PC KIT 16 years
Internet 4 years
The number of Internet users is estimated at 604,111,719 worldwide.
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ROBOTS
R O B O T I C S TIMELINE 1495 – Da Vinci’s Knight Leonardo da Vinci builds a mechanical device that looks like a knight in armor. The mechanism inside makes it look as though the knight is moving.
1898 – Robotic boat Nikola Tesla builds and shows a robotic boat at Madison Square Garden.
1921 – A new word Czech writer Karel Capek introduces the word robot in his play RUR.
T
CYBER PETS
1962 – The Ultimate The first industrial arm robot, the Ultimate, is introduced at a car factory.
A robot dog first made an appearance at the New York World’s Fair in 1939. Today, cyber pets can behave like real animals.
1966 – Shakey Shakey is built. Shakey is designed to remember what it did in the past and then behave differently in the future. It moves on wheels and is connected by radio to a computer. It is built at the Stanford Research Institute in California. Shakey is named after how well it moves.
AIBO DOGS The latest cyber dogs made by Sony can play, walk, obey spoken commands, and even recognise the voices and faces of their owners.
1969 – Stanford Arm
The Stanford Cart is built by Hans Moravec. Its movement is controlled remotely by computer. It travels on large wheels and can make its way around an obstacle course by using a camera.
1974 – The Silver Arm Victor Scheinman starts selling the Silver Arm. It can put together small parts using touch sensors. It is sold to engineering factories.
1976 – Soft Gripper The Japanese Soft Gripper is invented by Shigeo Hirose of the Tokyo Institute of Technology. This robot arm can wrap itself around objects like a snake.
• The TIMELINE continues on page 45.
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The AIBO® robotic pet dog. AIBO dogs can even play soccer.
ROBOT SECURITY GUARD • MOSRO patrols factories and shopping centers. • MOSRO can detect gas, smoke, and movement with a camera and infrared detectors. • MOSRO issues warnings in over 20 languages. This is the MOSRO MINI mobile security robot. It is just 11 inches tall.
DOMESTIC ROBOTS 2002 — MARON It can detect intruders in a house, take photographs and can operate dishwashers and video recorders. It can be controlled with a mobile phone.
2003 — ROBOMOW RL1000 It can mow lawns without any help, and cut grass to six different heights. It is just over 12 inches high.
2003 — CYE ROBOT It can carry dishes, deliver letters, and help guests find their way around a house. It can be controlled using the internet.
ROBOSAPIEN This human-like cyber pet can run, dance, throw things, pick things up, and try karate. TAKARA AQUAROID FISH This cyber pet can be put into an aquarium. It looks like a fish, moves away from strong light, and swims at two different speeds. TOMY HUMAN DOG This cyber pet is built by Tomy. It can walk, sit, sing songs, and has 16 different personalities.
by itself. It was developed by the Carnegie Mellon University. FIREFIGHTING Robots are used to fight fires, because they are not affected by the heat and smoke. Robug-3 is a fire-fighting robot designed at Portsmouth University in the UK. It has eight legs, and suckers on its feet allow it to climb walls and across ceilings. It can also pull very heavy objects.
At the US Department of Energy’s Sandia National Laboratories, scientists are developing the world’s smallest autonomous, untethered robot.
• The mini-robot is powered by watch batteries and enhancements could include a miniature camera, a microphone, or chemical sniffers. • The mini-robot travels on two track wheels at a speed of 20 inches per minute.
Studying the planet Saturn, its rings and moons.
2003 — SMART 1 Searching the moon for frozen water, new minerals, and chemicals.
2004 — ROSETTA Sent to investigate a comet’s surface in 2014.
2003 — BEAGLE 2 Designed to investigate the surface of Mars, but disappeared after landing.
Studied the soil and rocks of Mars.
1977 – Voyagers The deep space explorers Voyagers 1 and 2 are launched from the Kennedy Space Flight Center.
1979 – Stanford Cart The Stanford Cart is improved with a better system for ‘seeing’ things.
1981 – Direct drive arm The first “direct drive arms” are built. They have motors in the joints of the arms. This makes them faster and more accurate than older robotic arms. They are designed by Takeo Kanade, Professor of Robotics at Carnegie Mellon University. A walking robot, called Genghis, is shown for the first time at the Massachusetts Institute of Technology (MIT).
1992 – Robot wars Combats between robots, sometimes called BattleBots, begin. The first “Robot Wars” take place in 1994.
1994 – Dante II
The mini-robots could travel in swarms like insects and fit into tiny spaces.
• Future uses could include detecting chemical or biological weapons; disabling land mines;
ROBOTS IN SPACE 1997 — CASSINI-HUYGENS
R O B O T I C S TIMELINE
1989 – Genghis
• The mini-robot has 8 kilobytes of memory, is less than an inch high and weighs about an ounce.
2003 — SPIRIT AND OPPORTUNITY
MARON
was built by a team from the Carnegie Mellon University and Redzone Robotics. BOMB DISPOSAL The British army have used bomb disposal robots since the early 70s. The first was called Wheelbarrow. NATURAL HAZARDS Robots are used to investigate volcanoes. Dante II explored an Alaskan volcano in 1994. It can be remotely controlled or it can move
THE INVENTION OF MINI-ROBOTS
RoboSapien
George Devol invents a remotecontrol device that can tell another machine which direction to move in.
1970 – Stanford Cart
Robots that do jobs that are too dangerous for people are sometimes called hazbots. RADIOACTIVITY In 1999, a hazbot called Pioneer was used at the Chernobyl nuclear power station, the site of the worst nuclear accident in history. Pioneer went into the burned-out, radioactive power station to test for levels of radioactivity and to test the structure of the remaining building. Pioneer
he word robot was first used by the Czech writer Karel Capek. It means forced labor and is a good way of describing what robots are for. Robots can do many jobs that human beings can do, but they can also tackle jobs that a human would find too difficult or dangerous. Robots are currently used in factories, they explore outer space and the inside of volcanoes, and they appear in our homes as toys or cyber (robotic) pets.
1946 – George Devol
Victor Scheinman, a student at the Stanford Artificial Intelligence Lab in California creates the Stanford Arm. This design becomes the standard for robot arms.
INVENTING HAZBOTS
or even spying, taking photographs of secret papers without being detected.
GEORGE DEVOL Nationality: American Profession: Engineer and inventor Biographical information: Devol was born in February 1912, in Louisville, Kentucky. In 1939, Devol designed and built an automatic counter at the New York World’s Fair. The counter kept a record of the number of visitors. Most famous invention: The first industrial robot. In 1954, Devol invented the first
programmable robot. He did not use the word robot, but universal automation. Devol founded the world’s first robot building company that built robots called unimation, for lifting and stacking hot pieces of metal in a car factory. Other inventions: During World War II, Devol helped to build systems that could protect aircraft from radar. They were used during the D-Day landings in Europe in 1944.
A robot called Dante II walks down a volcano in Alaska.
1996 – Robotuna The first robot fish is built. It is designed by Professor Michael Triantafyllou of the Massachusetts Institute of Technology (MIT). It is hoped that underwater robots will be able to explore parts of the ocean where humans cannot reach.
1997 – Sojourner The robotic rover Sojourner begins its exploration of the surface of Mars.
1998 – The Furby The Furby goes on sale. It is the first robot toy that can respond to commands.
2000 – Asimo The human-like robot, called Asimo, is built by Honda. It is four feet tall, walks on legs and can even walk around corners. It is designed to help around the house.
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INVENTORS
A TO Z INVENTORS Appert, Francois In 1810, French chef and inventor Francois Appert invented the bottling process for storing heatsterilized food. In 1812, he opened the world’s first commercial preserved food factory, initially using glass jars and bottles. In 1822, the factory began using tin-plated metal cans.
ARCHIMEDES OF SYRACUSE 287–212 BC Nationality: Greek Profession: Mathematician Biographical information: Archimedes was born and worked in the city of Syracuse in Sicily, although he studied at Alexandria, Egypt. He was killed when Roman soldiers conquered Syracuse.
Celsius, Anders
The ‘Archimedes Portrait’ by Domenico Fetti, painted in 1620.
Most famous invention: While wondering about how to test if a crown was made of pure gold, Archimedes discovered the principle of buoyancy – if an object is placed
in a fluid, it will displace its own volume of fluid. This is now known as Archimedes’ principle. Eureka moment: Archimedes had the original “eureka” moment. Getting into a bath he noticed that the water rose up the sides. His body was displacing its own volume of water. He raced into the street, without any clothes, shouting, “Eureka” (I’ve found it)! • See page 52 ARCHIMEDEAN SCREW
GALILEO GALILEI 1564–1642 Nationality: Italian Profession: Mathematician
In 1943, French explorer Jacques Cousteau and engineer Emile Gagnan connected portable compressed-air cylinders, via a pressure regulator, to a mouthpiece, inventing the aqua-lung. This piece of apparatus gives divers complete freedom to explore the oceans.
Fahrenheit, Daniel In 1714, physicist Daniel Fahrenheit invented the mercury thermometer and devised the Fahrenheit temperature scale. Fahrenheit had also invented an alcohol thermometer in 1709.
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Profession: Artist
A
The ballpoint pen was invented in the late 1930s by Hungarian brothers Ladislao and Georg Biro. Although the Biro brothers are credited with the invention of ‘the biro’, a similar writing instrument had been invented in 1888 by US inventor John Loud.
Cousteau, Jacques
Nationality: Italian
n inventor is anyone who thinks of something new to make or a new way to make or do something. We do not know the names of most of the inventors who have influenced our lives, or exactly when they made their breakthroughs. But many inventors are famous, and we even know about the ‘eureka moment’ when they had their brilliant idea.
Biro, Ladislao and Georg
In 1742, the Swedish astronomer Anders Celsius invented the Celsius (or centigrade) scale that uses 0° for the freezing point of water and 100° for the boiling point.
LEONARDO DA VINCI 1452–1519
Biographical information: The son of a musician, Galileo went to the University of Pisa to study medicine, but eventually became a professor of mathematics. During the 1630s, Galileo was arrested and imprisoned by the Catholic Church because of his scientific views. Most famous invention: Galileo is widely considered to be the founder of modern experimental science. He established the principle that scientific theories should be based on data obtained from experiments. Galileo, on an Italian 2000 lire banknote.
Eureka moment: Galileo was able to devise a mathematical formula to describe the motion of falling objects. The story that he dropped identical weights of iron and feathers from the Leaning Tower of Pisa may not be true, but Galileo did establish that all objects fall at the same speed, no matter what their weight.
Other discoveries: Galileo was also interested in astronomy. He did not invent the telescope, but he built his own in 1609. Galileo was able to observe the craters on Earth’s moon, he discovered that Jupiter has four moons, and he was the first person to describe the rings of Saturn.
• See page 18 for more information on Galileo’s life and work.
Leonardo Da Vinci
flight of birds, and the movement of water.
Biographical information: Da Vinci was apprenticed to a sculptor and worked as a painter for the rulers of Florence, Milan, and France. He produced some famous paintings, including the Mona Lisa.
Most famous invention: Leonardo’s notebooks contained drawings and ideas which would not be put into practice for hundreds of years, such as parachutes, canals, armored cars, and submarines.
Da Vinci filled thousands of pages of notebooks with drawings and notes about everything he saw around him. He studied human anatomy, military engineering, the
Eureka moment: Da Vinci showed that by drawing what he imagines, an inventor can inspire future generations to make these visions real.
A TO Z INVENTORS Franklin, Benjamin American statesman, scientist and writer Benjamin Franklin was fascinated by the discovery of electricity. In 1752, convinced that thunderstorms were electric, he proved it by flying a special kite into a storm. The lightning struck the kite and electricity travelled down the string. Franklin realized that buildings could be protected from thunderbolts if the electricity was conducted through a metal spike on the roof of a building to the ground via a thick wire. Franklin had invented a lightning conductor.
Galilei, Galileo
SIR ISAAC NEWTON 1642–1727 Nationality: English Profession: Mathematician Biographical information: Newton went to Cambridge University in 1661, but his studies were interrupted by an outbreak of plague that closed the university for two years. During this period of forced idleness, Newton did most of his best thinking. In 1667, he was appointed professor of mathematics at Cambridge.
Other discoveries: • A comprehensive theory of light that explained how lenses worked and how white light could be split into colors.
Newton Stories: • Newton is supposed to have thought up the theory of gravitation after watching an apple fall from a tree.
• A system of arithmetic called calculus.
• While studying light, Newton pushed blunt needles into the corners of his eyes to see what effect squashing his eyeballs had on his vision.
• Newton built a reflecting telescope that used a curved mirror to give a better image.
Galileo was so intrigued by the swinging of the incense burner in Pisa’s cathedral, it inspired him to work with pendulums. Galileo measured the time it took to make a complete swing and discovered that it took the same amount of time to get back to where it started, even when the size of the swing changed. Galileo experimented with pendulums for many years, but by the time he thought of using a pendulum’s even swing to keep a clock running smoothly, he was old and totally blind.
Gillette, King C
• Most of his work is contained in his books Principia Mathematica (1687) and Opticks (1704).
Advised by a colleague to invent “something that would be used and thrown away,” Gillette invented the disposable razor blade and new safety razor. Constantly having to buy new blades was not popular with customers, but never having to use a “cut-throat” razor again was! Gillette founded his razor blade company in 1903.
Most famous discovery: Newton is best known for his theory of universal gravitation—that there is an attractive force between all the objects in the universe, and this force is called gravity. Newton used his theory to discover the mathematical laws that govern the motion of every object in the universe. The movement of any object, be it a pick-up truck or a planet, can be explained and predicted by what is known as Newtonian physics.
Halley, Edmond In 1717, English astronomer Edmond Halley invented the first diving bell in which people could stay underwater for long periods. Earlier devices, primarily built for attemps to retrieve sunken treasure, had not been successful. Air was supplied to Halley’s diving bell in barrels with weights to make them sink.
• See page 18 INVENTION OF THE TELESCOPE
Sir Isaac Newton
• See page 18 HALLEY’S COMET
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INVENTORS
A TO Z INVENTORS Kwolek, Stephanie Pound for pound, Stephanie Kwolek’s invention of Kevlar is 5 times stronger than steel. It is also chemical and flame resistant. Kevlar, best known for its use in bullet-proof vests and crash helmets was developed in the 1960s when chemist Kwolek was working in the laboratory of US company DuPont Textiles.
Mars, Frank In 1911, Frank Mars and his wife Ethel began making and selling butter-cream sweets from their home in Tacoma, Washington. In 1920, Frank invented the Mars bar when he came up with the idea of producing malted chocolate milkshakes in a solid form that could be enjoyed anywhere.
Nationality: French
JOHANNES GUTENBERG 1400–1468 Nationality: German Profession: Jeweler/craftsman Biographical information: Gutenberg was born in Mainz and trained as a goldsmith. He lived and worked in Strasbourg between 1430 and 1444, then returned to Mainz.
Leclanché, Georges In 1866, French engineer Leclanché invented the sealed, dry cell battery that is still used in many flashlights today. Until the invention of the Leclanché cell, people were restricted to Volta’s battery that contained a liquid that had to be constantly filled up.
LOUIS BRAILLE 1809–1852
Most famous invention: The process of printing with moveable type and a printing press based on existing screw presses used to crush juice from grapes and olives.
Gutenberg printed and published his first book, a Latin Bible, in 1455. Money disputes with his financial backer, Johann Fust, caused him to lose his business.
Inventor at work: After 20 years of secret work to perfect all the necessary processes,
• See page 8 THE INVENTION OF PRINTING
Profession: Teacher Biographical information: Louis Braille was blinded at the age of three in an accident at his father’s harness shop. In 1819, he went to the National Institute for Blind Children in Paris and later became a teacher there.
Jacques: 1745–1799 Nationality: French Profession: Paper-makers Biographical information: The Montgolfier brothers worked in their father’s paper factory in Annonay, France. Eureka moment: Joseph and Jacques noticed how flames sent scraps of paper floating up the chimney. They became
Around 1568, Flemish cartographer Gerhard Mercator produced a map that gave sailors constant compass directions as straight lines. The Mercator projection provided a flat, peeled view of the globe. The map is very accurate for navigators, but showing the curved earth on flat paper causes distortions and makes countries near the poles look too big.
convinced that a large bag filled with hot air would rise. Most famous invention: The first hot air balloon. On September 19, 1783, a sheep, a duck, and a cockerel became the first living creatures to fly in free flight or in a wicker basket suspended from a Montgolfier balloon. On November 21, 1783, Jean Francois Pilatre de Rosier and the Marquis d’Arlandes flew over Paris for 23 minutes in a Montgolfier balloon—the first human flight.
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• See page 29 THE BALLOON INVENTORS
SAMUEL MORSE 1791–1872 Profession: Artist and inventor Biographical information: Morse was born in Massachusetts. His father worked in the church and wrote geography books. Morse went to Yale when he was 14 years old. He earned money painting pictures of his friends and
Braille is read using the fingertips.
a
b
c
Benedictine monk Dom Perignon is credited with inventing champagne in around 1670, but other winemakers of the Champagne region of France probably contributed to its development. The special method of fermentation, known as méthode champenoise, produces the carbon dioxide that creates the bubbles.
Nationality: American
the first device that could play pre-recorded music.
Profession: Inventor Biographical information: After being expelled from school for pranks, Edison was educated at home by his mother. He began experimenting with batteries and electricity when he was ten. He built his own telegraph, and his first job was as a telegraph operator. Most famous invention: Edison was already well known in the USA, but his 1877 invention of the phonograph made him world famous. The phonograph was
Inventor at work: In 1876, Edison decided to become a fulltime inventor. He built the world’s first industrial research laboratory, which he called an inventions factory, in Menlo Park, New Jersey.
Richter, Charles F.
Other inventions: Edison also invented the electric light bulb. Edison sometimes made as many as 400 inventions a year including the incandescent electric lamp, the microphone, and the kinetoscope.
Edison patented 1093 inventions. • See pages 31 and 36 for more information on Edison’s inventing work.
American seismologist Charles F. Richter developed his numbering system for measuring earthquakes in 1935. An earthquake measuring below 2 on the Richter scale would be recorded by equipment but not felt by a person. An earthquake measuring 8 or more would be devastating.
Roosevelt, Theodore
GEORGE EASTMAN 1854–1932
The Montgolfier balloon was made of fabric lined with paper. It was 33 feet across.
Nationality: American
Most famous invention: A system of reading and writing for the blind
•• •• • •• •• •• • • • • • • •
THOMAS ALVA EDISON 1847–1931
Nationality: American
Mercator, Gerhard
using raised dots in a six-dot matrix system. Braille’s system was first published in 1829.
Perignon, Dom
JOSEPH AND JACQUES MONTGOLFIER Joseph: 1740–1810
Eureka moment: At school in Paris, Braille learned of a system called night writing, invented by Captain Charles Barbier, for battlefield communications during the night. In 1824, just 15 years old, Braille developed his own system, using Barbier’s as a starting point.
A TO Z INVENTORS
teachers. He studied art in England and became a well-known painter. Most famous invention: Morse’s interest in electricity led to his invention of the electrical telegraph and morse code. Eureka moment: Morse demonstrated his telegraph to the American Congress, and in 1843,
they give him $30,000 to build a telegraph line from Washington, D.C. to Baltimore Other inventions: The bathometer, used to find out how deep rivers and lakes were.
• See page 30 MORSE CODE
Profession: Photographic film manufacturer Biographical information: After leaving school, Eastman worked in
insurance and banking while pursuing his hobby of photography. In 1880, he perfected a method of making photographic plates and set up a factory where he soon developed transparent film.
Most famous invention: In 1900, Eastman launched the Box Brownie camera. It was so cheap, only a dollar, including film, that everybody could afford to buy one, making photography available to all. The first Kodak camera (Eastman invented and trademarked the name Kodak) marked the beginning of amateur photography. George Eastman (left) and Thomas Edison introduce color motion pictures to the world in 1928. • See page 9 for THE INVENTION OF PHOTOGRAPHY
While on a hunting expedition in 1902, president Theodore “Teddy” Roosevelt refused to shoot a defenseless bear cub. The story enhanced the popularity of the already popular president. Morris Michtom, a New York retailer cashed in on the incident by selling plushcovered bears with button eyes and jointed limbs. He called them Teddy’s Bears. A huge success, they soon became known as Teddy Bears.
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INVENTORS
A TO Z INVENTORS
Marie Curie was awarded the Nobel Prize for chemistry for her continuing work on radium and radioactivity. Doctors found that radium could be used to treat cancer through radiotherapy.
Profession: Physicist Biographical information: Marie Sklodowska studied physics and math at university in Paris. In 1895, she married the French scientist Pierre Curie.
Hungarian design professor, Erno Rubik, invented the Rubik’s Cube. Popular during the early 1980s, over 150 million cubes were sold (100 million real units and 50 million fakes). Once twisted from its original arrangement, the puzzle had 43 quintillion possible configurations.
Schueller, Eugene In 1936, French chemist Eugene Schueller produced the first suntan lotion at his company L’Oréal. Designer Coco Chanel made suntanning fashionable around this time. Today, the oil is sold around the world as Ambre Solaire.
Semple, William Finlay On December 28, 1869, William Semple of Mt Vernon, Ohio, became the first person to patent a chewing gum—US patent 98,304.
Sinclair, Clive In 1985, British inventor Clive Sinclair invented the C5, a battery-powered bike. The C5 had a top speed of 15 mph, a range of 20 miles, and took eight hours to recharge the batteries. Unfortunately for Sinclair, consumers were not impressed with his new type of vehicle, and the invention flopped.
50
Eureka moment: The discovery of radium involved breaking down and refining several tonnes of a mineral called pitchblende to locate less than one hundredth of a gram of pure radium.
Most famous invention: In 1898, the Curies discovered the radioactive elements radium, thorium, and polonium, named for Marie’s homeland. In 1903, they shared the Nobel Prize for physics with Henri Becquerel. In 1911,
Madame Curie poses in her Paris laboratory.
ALBERT EINSTEIN 1879–1955 Nationality: German-SwissAmerican
Eureka moment: The speed of light was central to Einstein’s thinking. One morning, traveling to work by bus, Einstein glanced at the Town Hall clock, if the bus suddenly accelerated to the speed of light, then the clock would appear to stop. The relative motion between observer and observed is at the heart of Einstein’s two theories of relativity.
Profession: Office clerk and mathematician Biographical information: Einstein was born in Germany and attended college in Zurich, Switzerland. In 1901, he got a job at the Swiss Patent Office, and became a Swiss citizen. In his spare time he worked on difficult mathematical problems. When his work became well known, he returned to Germany. In 1933, he went to the USA and became a US citizen in 1940. Most famous discovery: Somewhere among Einstein’s work is the simple formula E=mc2. This means that matter (m) can be converted into energy (e), and that the amount of energy will be equal to the amount of matter times the speed of light (c) squared. The speed of light is about 186,282
Albert Einstein
miles per second.. Einstein’s formula summarizes what happens when an atom bomb explodes.
A TO Z INVENTORS
Nationality: American (born in Italy)
MARIE CURIE 1867–1934 Nationality: Polish
Rubik, Erno
ENRICO FERMI 1901–1954
Other discoveries: Newton’s laws of motion do not work mathematically for objects moving very quickly (near the speed of light). Einstein’s special theory of relativity (1905) extended math to cover objects moving at a constant high speed. His general theory of relativity (1916) further extended math to cover rapidly accelerating objects. As well as showing that matter and energy are interconnected, Einstein also showed that space and time were interconnected, a concept called spacetime.
Smith, Richard
Profession: Physicist Biographical information: Fermi studied physics at the University of Pisa and was awarded a doctorate for research into X-rays. He worked in Italy until he won the Nobel Prize for physics in 1938. He and his wife then traveled to Sweden and finally to the USA. Eureka moment: In 1939, Fermi realised that an atom bomb was possible. Together with other scientists, including Albert Einstein, he wrote to US President Franklin D. Roosevelt about the discovery. Roosevelt ordered the Manhattan Project.
construction of the world’s first nuclear reactor. It was located in a basement squash court at the University of Chicago.
Most famous invention: Fermi designed and supervised the
Other inventions: Fermi discovered the first artificial element, neptunium
1951, University of Chicago – Fermi at the controls of the new synchro-cyclotron built to study the origins of life.
(No. 93) and the element fermium (No.100) is named in his honour.
Richard Smith, a blacksmith, carpenter, and farmer, encountered the problem of hard-to-remove tree stumps when turning forests into fields in South Australia. The stumps slowed the plowing and broke plows. While plowing one day in 1876, Smith observed that a plow-blade that had come loose rode over a stump and continued plowing. Smith designed and manufactured the flexible Stumpjump plow that had blades that were forced back into the soil by weight, after jumping.
• See page 11 NUCLEAR POWER for more information on the work of Enrico Fermi.
FRANCIS CRICK & JAMES WATSON Crick: 1916–2004 Watson: born 1928 Nationality: English (Crick); American (Watson) Profession: Molecular biologist (Crick); Biochemist (Watson) Biographical information: Crick studied at Cambridge University and during World War II designed antiship mines. Watson trained at the University of Chicago and later studied viruses at the University of Indiana, where he received his doctorate in 1950. Most famous discovery: In 1953, while working at the Cavendish Laboratory in Cambridge, Crick and Watson discovered that the three-dimensional structure of the DNA molecule was a double helix. • See page 15 THE STORY OF DNA
Crick (right) and Watson with their famous laboratory model of the DNA double helix.
Eureka moment: By 1950, scientists knew what DNA was made from, but they had no idea of its shape. Crick and Watson made many models of what they thought
it might look like. Finally, they came up with a double helix, shaped like a long, twisted ladder. In 1962, they shared the Nobel Prize for medicine.
Watson-Watt, Robert Alexander In 1935, Scottish physicist Robert Alexander Watson-Watt was working on aircraft radio-location. He beamed radio waves at planes and then calculated the time it took to receive reflections back. Elapsed time gave him the aircraft’s distance away. By late 1935, Watson-Watt was able to locate aircraft 68 milrd away. His work led to the development of the first radar system.
Yale, Linus In 1861, Linus Yale Jr. perfected the lock with a compact, revolving barrel and flat key that we use today. It was based on a lock designed by his father using a principle known to the ancient Egyptians.
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INVENTIONS
S
ome inventions are the result of years of dedicated research. Others come as a flash of inspiration. An invention may solve a specific problem, or be the by-product of an inventor’s irresistible urge to understand how things work and then improve on them. All inventions draw on the accumulation of human knowledge and the work of earlier inventors. Many inventions may not have made the headlines, but they represent the work of inventive men and women around the world.
WORDS OF WISDOM “To invent, you need a good imagination and a pile of junk.”
Thomas Alva Edison
ADDER-LISTER
ASPIRIN
US inventor William Burroughs patented an adding machine that printed its calculations in 1888. With more than 80 keys and a handle to operate the printer, the Adder-lister went on sale in 1892.
In 1899, German chemist Felix Hoffmann re-discovered an old formula for a painkiller. The drug was aspirin, and it contains salicylic acid, juice from willow tree bark. Hoffman developed and tested the aspirin and used it to treat his father’s arthritis. He patented Acetyl Salicylic Acid in 1900.
ACUPUNCTURE
ADDING MACHINE
This ancient therapy is based on the idea that the life force, or chi, flows in certain channels, that can become blocked. The practice of placing a needle in the right place to make the chi flow smoothly again has hardly changed since it was first used in China some 4,500 years ago. Steel needles have now replaced stone ones.
The arithmometer, patented in 1820 by Frenchman Thomas de Colmar, was the first calculating machine that really worked. It could add, subtract, multiply, and divide. It took a while to catch on and underwent many developments, but from the mid-1800s onward, hundreds were in use.
ARCHIMEDES SCREW A means of raising water for irrigation, the Archimedes screw comprises a cylinder with a large screw inside. The bottom of the screw is dipped in water and, as the screw is turned, water is carried up the cylinder. We do not know for sure if Archimedes actually invented this device or whether he wrote about it, but the device came to take his name.
AEROSOL CAN Norwegian Erik Rothheim invented the aerosol can in the late-1920s for packaging paint and polish. Aerosols were developed in the USA for spraying insecticide. AIR CONDITIONING In 1902, US engineer Willis Carrier designed an “apparatus for treating air.” Carrier’s invention was based on cooling the temperature until moisture condenses out, then draining away the water, to produce pleasantly cool, dry air.
1899: ASPIRIN BIKINI In 1946, the bikini was invented independently by two Frenchmen, Jacques Heim and Louis Reard. Heim designed a very small bathing suit he called the Atome,
french for atom. Reard’s creation was named the Bikini after the place Bikini Atoll in the Marshall Islands, which was very much in the news at the time due to atom bomb testing taking place there. BINGO Originating in Europe, beano, as it was first called, arrived in the US in 1929. Toy salesman Edwin Lowe renamed the game bingo after he heard someone accidentally call bingo instead of beano. Lowe hired a math professor, Carl Leffler, to work out combinations for the bingo cards. Leffler eventually created 6,000 different combinations. The game went on to be a popular means of fundraising.
BUBBLEWRAP
CAT’S-EYES
Bubblewrap first appeare in 1960 in its earliest form as AirCap cellular cushioning and consisted of two layers of soft plastic with bubbles trapped between them. Inventors Alfred Fielding and Marc Chavannes were originally trying to make a textured wall covering.
Invented in 1934 by Percy Shaw, the flexible rubber housing enables the reflectors in the center of the road, called cat’seyes, to be cleaned by every car that crosses them.
CAMERA OBSCURA The modern camera started as a darkened room with a tiny hole in one wall. On the opposite wall, an upside-down image of the outside world would appear. In 1558, Italian physicist Giovanni Battista Della Porta changed the hole for a lens that, by letting in more light, produced a much sharper image. The Italian words camera obscura mean a dark room.
ARCHIMEDES SCREW
Before 1855, a hammer and chisel were required to open cans. Then, British inventor Robert Yeates invented the can opener—a sharp blade that was stuck in the top of a can, and then worked around.
1855: CAN OPENER
BUBBLE GUM
CASH REGISTER
In 1906, the first bubble gum, called Blibber Blubber gum, was invented by Frank Fleer, but the chewy invention never went on sale. In 1928, Walter Diemer, an employee at Fleer’s company invents the pink-colored Double Bubble bubble gum.
Restaurant owner James Ritty’s 1879 cash register displayed the money paid on a dial and recorded it by punching paper on a roll.
WORDS OF WISDOM
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“If I have seen farther than others, it is because I was standing on the shoulders of giants.”
Isaac Newton 1946: BIKINI
1906: BUBBLE GUM
A ga-engined sawing machine was made by German Emil Lerp in 1927. Although similar to a modern saw, it was too heavy for one person to lift. In 1950, the Stihl company produced the first chainsaw light enough for one person.
“For me, the best designs are the result of someone questioning everything around them – looking at the same things as everyone else but thinking something different.”
FERRIS WHEEL American George W. Ferris designed the first ferris wheel for the 1893 World’s Fair in Chicago. Ferris was a bridge builder and owner of a company that tested iron and steel. The finished wheel had a diameter of over 250 feet. Thirty-six wooden cars held up to 60 riders each. The price of a ride was 50 cents.
James Dyson
DIVING SUIT
CAN OPENER
AMALGAM FILLING Before the early 1800s, metal tooth fillings were made by heating metal to boiling point before they were put into the tooth. Around 1826, working independently, August Taveau in France and Thomas Bell in Britain mixed mercury and silver to form a paste, which they found could be inserted cold into the mouth and would harden quickly. The amalgam filling is still used today.
CHAIN SAW
WORDS OF WISDOM
1927: CHAIN SAW
Augustus Siebe, a German engineer, invented the first practical diving suit in 1819. Siebe’s suit comprised of a jacket and an airtight helmet. Air was pumped into the helmet from the surface. ELECTRON MICROSCOPE
COMPTOMETER Displaying its results in a set of windows, US engineer Dorr E. Felt’s calculating machine was much faster than its rival, the Burrough’s Adder-lister, which printed its results. Both machines were in use until the mid-20th century.
Invented by Ernst Ruska in the 1930s, the electron microscope “sees” with electrons rather than photons of light. Today’s electron microscopes make it possible to view items as small as atoms and can display an image on a computer screen.
DC06 ROBOT Manufactured by Dyson in 2005. This robotic vacuum cleaner has sensors to help it avoid stairs and small children. It also remembers where it has cleaned. DDT The now little used insecticide DDT, a chlorine-based chemical, had been known for years before. In 1939, Swiss chemist Paul Muller discovered that it kills insects, but has little effect on warm-blooded animals.
FIELD-ION MICROSCOPE Invented by Erwin Mueller in 1956, the field-ion microscope has a magnification of more than 2.5 million times. LAUGHING GAS Although discovered earlier, in 1799, Humphry Davy found that nitrous oxide could make people laugh. He suggested it might be useful in surgery, but also used it to make party guests laugh (which is extremely dangerous). LEMONADE
COTTON SWABS This baby cleaning aid was introduced in the USA in 1926. Invented by Leo Gerstenzang after he saw his wife trying to use toothpicks and cotton wool. The sticks were improved in 1958 by a British invention, the paper lollipop stick.
1893: FERRIS WHEEL
1930s: ELECTRON MICROSCOPE ESCALATOR The escalator can be credited to two inventors in the late 19th century. Inventor George Wheeler sold his idea to a rival inventor, Charles Seeburger, because he had financial problems. Seeburger then sold his patent to the Otis Company and the copyright to the word escalator, which he had created for the machine.
• see page 25 OTIS SAFETY ELEVATOR
Lemon juice was probably used in drinks for many years before the first commercial lemonade was produced. In 1676, in Paris, vendors, belonging to the Compagnie de Limonadiers, sold glasses of a mixture of lemon juice, honey, and water. They poured the lemonade from tanks strapped to their backs. LETTERBOX On October 4, 1892, American George Becket patents a housedoor letterbox with a self-closing door, now called a mailbox. U.S patent number 483,525. LIE DETECTOR Originally developed by Czech psychologist Max Wertheimer in 1904, the polygraph, or lie detector, monitors blood pressure, pulse, and breathing, all of which can change when people lie.
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INVENTIONS
LIQUID PAPER
PARACHUTE
American secretary Bette Nesmith Graham invented liquid paper by mixing some of her artists’ materials in her kitchen blender. When other secretaries noticed Bette using her invention to hide typing errors, they wanted some, too. Bette started her mistake out company in 1956.
MARGARINE
OFRO ROBOT
In 1869, French chemist Hippolyte Mege-Mouries invented a butter substitute, called margarine, by bubbling hydrogen through a mixture of vegetable oils.
M&M’s
MATCH
Invented by snack food genius Frank Mars, of Mars bar fame, in the 1930s. Frank wanted to invent a chocolate that had a protective candy coat to stop it melting.
As knowledge of chemicals increased in the early 1800s, inventors used their knowledge to try to create an improved means of light. In 1827, British chemist John Walker produced his Friction Lights that lit up when rubbed on sandpaper.
Built by Robowatch Technologies, Germany, OFRO robots are designed to carry out surveillance in high security places, such as airports, nuclear power plants, and prisons. OFRO is dispatched to respond to alarms.
Frenchman Louis Lenormand gave his invention its first serious trial in December 1783 by jumping from the Montpelier observatory with a 14-foot chute. He landed safely. Although originally invented as a way to escape a burning building, a parachute was used in 1797 by another Frenchman to jump to safety when his hot-air balloon burst over Paris.
OIL PAINTING
PARKING METER
Oil paint had been known since Roman times, but until the early15th century, artists used paints made with eggs, such as tempera. The French and Flemish painters Robert Campin and Jan van Eyck perfected the use of oil paints in the 15th century. The graded tones that could be achieved with oil paints gave a greater sense of realism to their work.
Carlton Magee’s invention first appeared in Oklahoma City in 1935. Magee hoped his Park-OMeter would stop all-day parkers taking up spaces on the streets and make a little money for the city.
MINER’S SAFETY LAMP
1930s: M&Ms MACADAMIZED ROAD In 1783, returning to his native Scotland after making his fortune in America, John McAdam took an interest in the poor state of the roads. He experimented with road surfaces and by 1815, using a mixture of different sized stones, he had perfected a waterproof, durable surface suitable for the coach traffic of the day.
In the early 1800s, many lives were lost due to explosions in mines. The explosions were caused by the flames from miners’ lights making the methane gas underground explode. Mine owners commissioned three men to try to find a solution: chemist Humphry Davy, William Clanny, a doctor, and mechanic George Stephenson. The mine owners were pleased with Davy’s design, but the miners preferred the lamp designed by Stephenson, who was “one of their own.” Eventually most miners’ lamps incorporated ideas from all three inventors.
Brian Jones Balloon pioneer
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Having already identified graphite as a distinct mineral in 1565, Conrad Gesner, a German-Swiss naturalist, had the idea of placing the carbon in a wooden holder to form a writing instrument. Modern pencils with a core of graphite glued inside a thin tube of wood were first made in 1812.
Inventors had discovered that low pressure gas in a tube could be lit up with electricity. In 1910, French physicist Georges Claude found that the gas neon produced an intense orange-red glow—not suitable for regular lighting, but great for advertising signs!
A device that makes it possible to see electrical signals on a screen. The cathode ray oscilloscope was invented in 1897 by German physicist Ferdinand Braun.
The first “package” vacation was a train trip from Leicester to Loughborough in 1841. The excursion was a success, proving there was a demand for such a service. By 1855, the organizer, British missionary Thomas Cook was organizing trips to Europe.
1910: NEON SIGN NITROGLYCERINE Discovered in 1846 by Italian chemist Ascanio Sobrero, nitroglycerine was the first “high explosive.” It was much more powerful than gunpowder. Just dropping a container of the chemical on the floor can cause a large explosion.
PLASTERS In 1920, Earle Dickson, who worked for Johnson and Johnson, invented plasters . He stuck together adhesive tape, gauze, and fabric, and then rolled up the plasters for future use. Dickson’s invention was soon on sale in the US as BandAid . PICK-PROOF LOCK In 1784, British engineer Joseph Bramah offered £210 to anyone who could pick the lock he had invented. It was 67 years before the reward was claimed by US locksmith A.C. Hobbs, who took 51 hours to pick the lock.
RAWLPLUG
PACKAGE VACATION
1812: PENCIL
“Anyone who has lost track of time when using a computer knows the propensity to dream, the urge to make dreams come true, and the tendency to miss lunch.”
1893: PEPSI COLA
US company 3M’s Post-it notes were launched in 1980. A company chemist, Spencer Silver, made a “not very sticky” adhesive, but it was his colleague Art Fry who suggested the use for it.
OSCILLOSCOPE
WORDS OF WISDOM
Tim Berners-Lee
POST-IT NOTE
15th CENTURY: OIL PAINTING
NEON SIGN
WORDS OF WISDOM “While Bertrand Piccard and I were drifting (purposefully!) high above the earth in our small capsule, we became very aware of the fragility of our planet and of the people who inhabit it.”
PENCIL
In 1902, the trademark was registered and the Pepsi-Cola Company was formed. In 1908, Pepsi was one of the first companies to modernize delivery from horse-drawn carts to motor vehicles.
Since 1919, when British builder John Rawlings devised his “plug,” there has been no need to damage walls when hanging things on them. Rawlings’ invention lets you simply drill a hole and then insert a fiber rawlplug that expands to hold the screw.
PAPER CUP
PEPSI-COLA®
RING-PULL CAN
In 1908, US inventor Hugh Moore designed a vending machine to deliver water in individual paper cups. Previously, thirsty consumers had to share a tin cup. Moore’s paper cups became known as Dixies after the company created to make them in 1919.
In 1893, Caleb Bradham a pharmacist in New Bern, North Carolina, began experimenting with soft drink mixtures. Bradham’s mixtures were sampled by customers at his drugstore fountain. In 1898, one of his formulations, known as Brad’s Drink, proved popular and on August 28, it was renamed PepsiCola.
The first drink cans required a separate opener. In 1965, US engineer Ermal Fraze patented the convenient ring-pull can. The sharp-edged ring-pulls could be dangerous if thrown away, so engineer Daniel Cudzik invented the “stayon tab”.
SCANNING TUNNELING MICROSCOPE Invented in Switzerland in 1981 by Gerd Binnig and Heinrich Rohrer, the scanning tunneling microscope can be used to study and photograph individual atoms. SCISSORS The scissor principle was known in 3000 BC, but scissors like we use today, with two blades that pivote at the center, were invented by the Romans in about AD 100.
AD 1275: SPECTACLES
ROBART III ROBOT First made in 1992, Robart III is used by the US Navy. It has a camera, infrared sensor, and a gun that can fire darts. Robart III was built by Bart Everett of the Naval Oceans Systems Center.
STEREOSCOPE
RUBBER French scientist Charles-Marie de la Condamine discovered rubber trees with their sticky sap while on an expedition to South America. Although other Europeans had come across the substance in their travels, it was Condamine’s samples sent back to France in 1736 that put the product on the scientific map. Rubber was named when British chemist Joseph Priestley found that it would rub out pencil markings. RUBBER BAND In 1845, Stephen Perry of Messrs. Perry and Co. of London, England, a rubber manufacturing company, invented the rubber band. He used it to hold papers and envelopes together. SAFETY PIN US mechanic Walter Hunt invented the modern safety pin in 1849. His design was actually very similar to one that was invented and worn by people 2000 years ago. The clothing clasps were called fibulas, and they were used by the ancient Greeks and Romans for fastening clothing.
SPECTACLES The glass workers of Murano in Venice, Italy, invented the spectacles around AD 1275.
3000 BC: SCISSORS SHOPS Ancient Greek historian Herodotus (c 480–420 BC) stated, “the people who invented coins also invented shops.” He may well have been referring to the Lydians, an ancient civilization from an area that is now Turkey. The first shops were probably trading around 600 BC. SLICED BREAD Inventor Otto Frederick Rohwedder began work on a bread slicer in 1912. In 1928, he finally invented a machine that could slice bread and then wrap it to stop it going stale.
By combining two slightly different pictures, one for each eye, a three dimensional image is produced by a stereoscope. Invented before photography by Charles Wheatstone, stereoscopy became a craze after David Brewster showed a version of the stereoscope at the Great Exhibition in 1851. STICKY TAPE US engineer Richard Drew first invented masking tape, a sticky paper tape. Then in 1925, by coating cellophane with a similar adhesive, he produced what is known as Scotch Tape. SUPER GLUE In 1951, US researchers Harry Coover and Fred Joyner realized the potential of the chemical cyanoacrylate, discovered in 1942, for use in a super strong glue. A trace of water is all that is needed to trigger a chemical reaction that turns the liquid glue into plastic.
SLINKY In 1943, engineer Richard James invented the Slinky after he witnessed a long coil of metal, part of a Navy experiment, fall from a desk and appear to walk. He took the idea home to his wife Betty, who named the toy Slinky after consulting her dictionary to find a word that described the spring’s movement. Richard and Betty had just 400 springs made by a local machine shop initally. They soon needed to replenish their stock, when the Slinky was a huge success!
WORDS OF WISDOM “The important thing is not to stop questioning. Curiosity has its own reason for existing.”
Albert Einstein
1849: SAFETY PIN
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INVENTIONS
WORDS OF WISDOM “Just because something doesn’t do what you planned it to do doesn’t mean it’s useless.”
Thomas Alva Edison
TOOTHPASTE IN A TUBE
VACUUM CLEANER
Crème Dentifrice, produced in 1892 by US dentist Washington Sheffield, was the first toothpaste to come in a tube. Before Sheffield’s innovation, toothpaste had come in a jar.
In 1901, British engineer and inventor Hubert Cecil Booth invented the vacuum cleaner. Booth’s large, horse-drawn machine went from house to house sucking out the dirt through hoses. Booth formed the British Vacuum Cleaner Co. in 1903, and built his first canister-style machine in 1904.
TRAFFIC SIGNAL
SUPERMARKET In 1916, in order to cut costs in his business, US grocer Clarence Saunders invented “self-service” at his Piggly Wiggly store in Memphis, Tennessee. It was cheaper to let people take goods from the shelves than have staff members serve them. Saunders had invented the modern supermarket.
An early form of traffic lights appeared in London in 1868. In 1923, a system using three moving arms was patented in the US by inventor Garrett Morgan. TRAMPOLINE
TRIVIAL PURSUIT
TYPEWRITER
1916: SUPERMARKET SUPERMARKET CART US retailer Sylvan Goldman noticed that customers at his Humpty Dumpty supermarkets never purchased more than they could carry. In 1937, he had wheels and baskets welded to folding chairs. The supermarket cart was created. SURGICAL GLOVES Convinced that germs were a threat to their patients, 19th century surgeons needed to find a way to keep their hands sterile while operating. In 1890, US surgeon William Halsted invented thin rubber surgical gloves, and the problem was solved.
American mechanical engineer Christopher Sholes patented the first practical typewriter in 1868. Sholes laid the keyboard out in the pattern, known as QWERTY, after the six letters that appear top left on the keyboard. This layout was designed to slow down the typist in order to stop the keys jamming. Modern keyboards still have the same layout.
Based on James Dewar’s vacuum bottle, Rheinhold Burger’s metalcased flask was launched in 1904. The name Thermos flask was chosen after a competition.
Drop in a coin and the machine will release a shot of holy water. Ancient Greek inventor, Hero of Alexandria, described this early type of vending machine in a book around AD 60. It is not known if the machine was ever built.
VELCRO
WINDSURFER
Patented in the 1950s, Swiss inventor George de Mestral’s invention of Velcro came to him after tiny plant burrs (seed pods) attached themselves to his clothes and his dog while hiking in the countryside. Under the microscope, the burrs were discovered to have tiny hooks that were hooked in the fabric of Mestral’s pants. Mestral’s idea was to produce a two-sided fastener with hooks on one side and soft loops on the other. The name Velcro is a combination of two French words, velours (velvet) and crochet (hook).
Norman Darby’s passion for boatbuilding led to his invention of the sailboard or windsurfer. One day in 1943, while out sailing, Norman wanted to cross a stretch of very shallow water. First, he removed the keel of his small boat and then the rudder. He found that he could steer by tilting the sail. From that moment, he worked to perfect a purposebuilt board.
WORDS OF WISDOM “When one door closes another door opens; but we so often look so long and so regretfully upon the closed door, that we do not see the ones which open for us.”
THERMOS FLASK
WHAT IS A PATENT? To prevent other people from making, using, or selling an invention without the inventor’s permission, he or she must apply to a government patent office to take out a patent. • If no one else has patented the same invention, a patent will be granted for a specific period of time. Patents usually cover the way things work, what they do, how they are made, and what they are made of. • Today, most patents are granted to cover newly invented improvements to existing technology.
INVENTORS AT WORK SOME FAMOUS PATENTS • Telegraph US Patent No. 1,647 June 20, 1840 Samuel Morse • Sewing machine US Patent No. 13,661 October 9, 1855 Isaac Singer • Electric light US Patent No. 223,898 January 27, 1880 Thomas Edison • Automobile US Patent No. 686,046 November 5, 1901 Henry Ford
• Airplane US Patent No. 821,393 May 22, 1906 O. & W. Wright • Packaged frozen food US Patent No. 1,773,079 August 12, 1930 Clarence Birdsey You can see the actual patents of these inventions and others at www.uspto.gov
Sometimes inventors are convinced that they have actually found the best thing since Otto Rohwedder’s sliced bread—it’s just that nobody else appreciates their genius! Here are a selection of inventions that, for some reason, did not make it into production. AIR-COOLED ROCKING CHAIR On July 6, 1869, US Patent No. 92,379 was issued to Charles Singer for his innovative, breezy rocking chair. The chair was to have bellows (devices that were once used for blowing air on fires) connected to a hose that blew air onto the sitter as he or she rocked.
The Mesopotamians were very eager star-gazers. Around 500 BC, Astronomer-priests divided the night sky into 12 equal parts and identified each part by a different star constellation. The constellations they recognized are the basis of modern-day star signs and horoscopes.
BLAST OFF! In 1500, Chinese scientist Wan Hu tried to fly by tying 47 rockets to his sedan chair. The rockets exploded, and he was never seen again.
THE VELO-DOUCHE In 1897, an English bicycle manufacturer contemplated the idea of a Vélo-douche shower bath—an exercise bike combined with a shower to keep the rider in shape and clean.
PATENT PROBLEMS In theory, it should be very simple to patent your idea. However, in practice, it can sometimes be a long and expensive process if people try to steal your idea, or claim they had it before you. • Alexander Graham Bell filed his patent application for the telephone on March 7, 1876, only hours before his rival Elisha Gray. • Gray pursued Bell with 600 lawsuits claiming the idea.
CONCRETE FURNITURE
IT SEEMED LIKE A GOOD IDEA AT THE TIME...
ZODIAC SIGNS
Alexander Graham Bell 1852: UMBRELLA
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1979: TRIVIAL PURSUIT
UMBRELLA The steel-ribbed umbrella that we use today was invented in England in 1852 by Samuel Fox.
The draisienne invented by Baron Karl von Drais de Sauerbrun in 1817 is recognized as the first twowheeled, rider-propelled machine. Although von Drais called his device a Laufmaschine (running machine), draisienne and velocipede became more popular names. Made of wood, the machine was propelled by the seated rider paddling his feet on the ground. Copies were soon being made in other countries and, in 1818, Denis Johnson of London patented a pedestrian curricle, an improved version of a draisienne that he had purchased. VENDING MACHINE
Circus acrobat and Olympic medalist George Nissen invented the trampoline in 1936. He built a prototype in his garage and later patented the idea.
Described as “a party in a box” and a “revolt against television,” the quiz game Trivial Pursuit was created by four Canadian friends in 1979. After a slow start, the marketing took off when the game was launched in the USA. In 1984 alone, more than 20 million games were sold.
VELOCIPEDE
A CUTE INVENTION On May 19, 1896, US Patent No. 560,351 was issued to inventor Martin Goetze for his device for producing and maintaining dimples on human skin. SNOW TO AUSTRALIA Around 1970, an intriguing idea was patented in the UK by inventor A.P. Pedrick. The idea was to irrigate the Australian desert by using the force from the spin of the Earth to pipe snow and ice balls from Antarctica. CHEWING GUM LOCKET On January 1, 1889, US Patent No. 395,515 was issued to Christopher W. Robertson for his invaluable invention, the chewing gum locket. Conveniently stashed away in the locket, chewed gum could be safely carried on the person. Far better than leaving it around to get dirty.
In 1911, Thomas Edison proposed a new range of home furnishings made from concrete. • Easy to manufacture and low in cost, Edison’s special lightweight concrete would be used to produce phonograph cabinets, pianos, and even bedroom furniture. • Unfortunately, when Edison shipped some phonograph cabinets to a trade show they arrived in pieces. Not good publicity for a product marketed as being able to withstand being dropped and abused. • The world was not ready for Edison’s new idea, and concrete furniture faded into history.
WORDS OF WISDOM “Results! Why man, I have gotten a lot of results. I know several thousand things that won’t work.”
Thomas Alva Edison
500 BC: ZODIAC SIGNS
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GLOSSARY
GLOSSARY protons and even more neutrons.
AIDS (Autoimmune Deficiency Syndrome) A fatal disease caused by HIV that renders victims susceptible to infections and cancers. AIDS can be slowed, but not cured, by expensive drugs.
Australopithecus (Southern ape) One of a group of bipedal (using two legs) primates that lived in Africa about 4 million years ago and may have been the ancestors of modern human beings. Base pairs The four nucleotide bases—thymine (T), guanine (G), cytosine (C), and adenine (A)— that make up the genetic code. They are always arranged in pairs.
Alternating current The flow of electricity supplied to homes and offices through electrical mains. It reverses direction about 50 or 60 times per second.
Biochemist A scientist who studies the substances produced by living things and how they combine and react with other substances.
Anatomist Medical scientist who studies the bones, organs, and other structures that make up an animal body.
BASIC (Beginners Allpurpose Symbolic Instruction Code) A computer language that is used to write operating program for a computer.
Anthropologist A scientist who studies the traditional human societies and cultures that still exist in the modern world. Archaeologist A scientist who seeks out and studies non-written evidence of past human cultures and civilizations. Atom Smallest possible unit of a chemically pure element. All materials and substances are composed of atoms and combinations of atoms known as molecules. Atom bomb Device that uses a chain reaction of uranium or plutonium to produce an extremely powerful explosion. A single atom bomb is equivalent to a million tons of ordinary explosive. Atomic size The atomic size of an element depends on the number of protons and neutrons in the nucleus. An atom of hydrogen has just one proton in the nucleus. An atom of uranium has 92
Bacteria Group of single-celled organisms that are similar to the earliest forms of life. Bacteria do not have a nucleus and do not use DNA. Some bacteria cause diseases. Binary Using just two digits, 1 and 0. Computers operate according to instructions written in binary numbers. Text and other information (such as sound and video) can be digitized (converted into binary numbers) for storage or transmission. Botanist A scientist who studies plants. Calculus A type of arithmetic used to find the solution to problems where there are two variable quantities, as in the complex motion of a cannonball through the air or a planet through space. Cathode ray tube A hollow glass device that “fires” a stream of electrons from one end so that they form an image on the flattened surface of the other end. The cathode ray tube is the basis for ordinary TV sets. Census A count of the total population of a country. Many governments conduct a census every ten years.
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Centrifugal force The force that appears to make objects on a rotating body move toward the outer edge. Clone A plant or animal produced from a single cell that is an absolutely identical copy of the plant or animal from which the cell was taken. A clone has exactly the same DNA as the “parent.” Coaxial cable Electrical communications cable with an insulated central strand of thick metal wire surrounded by a woven mesh of fine wires. Current The flow of electricity around a circuit. Cyclotron A device used to accelerate subatomic particles (such as protons, neutrons, or electrons) so that they crash into each other to produce other subatomic particles. Dialysis medical technique for removing harmful chemicals from the blood of patients with kidney failure. Digital Stored or transmitted in digital form as a series of binary numbers. Direct current (DC) Electricity, produced by batteries and dynamos, that flows in one direction from a positive anode to a negative cathode. DNA (Deoxyribonucleic acid) The substance that contains the genetic code used to pass on characteristics to offspring. All living things, except bacteria, use DNA, and every species has its own type of DNA molecule. Electromagnet A device that only exhibits magnetism when an electrical current is applied to it. Electron Subatomic particle with a negative electrical charge. Electrons orbit around the nucleus of atoms.Atoms usually have the same number of electrons as protons in their nucleus. Electron shell The orbit of electrons around an atomic nucleus forms a series of hollow, spherical shells,” one inside the other, with the nucleus at the center.
uranium or plutonium) to produce a slow, heat-generating chain reaction. Nuclear reactors are used in atomic power stations.
Element One of the pure chemical substances. There are 92 naturally occurring elements, and about 20 short-lived artificial elements that have been made in laboratories. ESA (European Space Agency) A multinational organization concerned with space exploration and research.
Meteorologist A scientist who studies the weather.
Exposure time Length of time a camera shutter remains open in order to produce an image of the desired quality.
Microchip Component of electronic devices, also known as an integrated circuit or silicon chip. A microchip is a small piece of silicon with thousands of tiny electrical circuits on its surface.
Fiberoptic cable Communications cable made from woven strands of glass, designed to carry messages as pulses of laser light.
Microprocessor Component of electronic devices. A microprocessor is a self-contained microchip that can perform several electronic tasks at the same time.
Font A set of the letters of the alphabet and the numerals in matching size and style. Printers use many fonts when producing books and magazines.
Minoans Ancient inhabitants of the island of Crete, who developed the first civilization in Europe around 2500 BC. The Minoan capital was the great palace at Knossos.
Genes The means by which characteristics are inherited through DNA. A gene is a section of the genetic code that contains the instructions for one specific thing, such as making a particular protein. Genome The complete genetic code for a particular species. HIV (Human Immunodeficiency Virus) The microscopically small substance that causes AIDS (Autoimmune Deficiency Syndrome). HIV is spread from person to person through the blood. Homo erectus Early type of human that lived between 1 and 2 million years ago. Some scientists believe that Homo erectus was a direct ancestor of modern human beings. Internet An international network of computers developed in the 1970s. The Internet is now used commercially and can be accessed by all computer users with an addional service. Jurassic Period in earth’s history from 208 to 146 million years ago. During the Jurassic period, dinosaurs lived on land.
Morse Code Sequence of dots and dashes representing letters and numbers invented by Samuel Morse and used to transmit messages by flashes of sunlight on a mirror (heliograph) or along electrical wires (telegraph). NASA (National Aeronautic and Space Administration) The US government agency responsible for space exploration and research. Negative In photography, a negative is an intermediate stage produced from exposed film. In a negative image, the colors and tones of the original scene are reversed so that light is dark and dark is light. A bright light is then shone through the negative onto light-sensitive paper to produce a positive image. Neolithic (New Stone Age) Period of human prehistory when people developed farming and pottery. In Europe and Asia, the Neolithic lasted from around 12,000 to 7,000 years ago. Neutron A subatomic particle. A component of atomic nuclei that has no electrical charge. Nuclear reactor A device that uses radioactive material (such as
Nucleotide bases Four chemical substances—thymine (T), guanine (G), cytosine (C), and adenine (A)—that are linked together to form the long strands of the DNA molecule. The genetic code is often said to be a code written in just four letters: T, G, C, and A. Nucleus The central part of an atom or cell. In atoms, the nucleus is formed of protons and neutrons. In a cell, the nucleus normally contains DNA. Oscilloscope Device that uses a cathode ray tube to show electrical signals as glowing lines on a glass screen. Oscilloscopes are used to monitor frequency, wavelength, signal strength, among other things. Ozone Form of the gas oxygen normally found in the upper levels of Earth’s atmosphere where it forms a barrier against ultraviolet radiation. PALEOLITHIC (Early Stone Age) Period of human prehistory when people made cutting implements and other tools from stone. The Paleolithic lasted from about 2.5 million to 20,000 years ago. Paleontologist A scientist who studies the fossilized remains of prehistoric animals. Phoenicians People who lived along the eastern coast of the Mediterranean about 3,000 years ago. They were traders and seafarers and around 800 BC, they founded the city of Carthage in present-day Tunisia. Photograph Image of reality captured by a light-sensitive medium (for example, photographic film) that can be printed onto a sheet of paper. Photographic plate Sheet of metal or glass coated with lightsensitive chemicals that was used in cameras before the invention of transparent plastic film. Physicist Scientist who studies the physical properties of substances, and the way that objects of all sizes are affected by force and energy.
Physiologist Medical scientist who studies the operation and activity of the organs in a healthy body. Plate tectonics The natural mechanism by which the large plates of solid rock that make up the Earth’s outer crust “float” on the semi-solid rock beneath and gradually change their position. Positive In photography, an image is one in which color tones have the same values as the original scene. Primeval atom Phrase invented to name the unknown and incredibly small state of the universe immediately preceding the theory of the Big Bang that created the universe around 15 billion years ago. Protein Proteins, created by the body, that are used to build the structures of cells and tissue. Proton Subatomic particle, component of atomic nuclei that has a positive electrical charge. Prototype Trial version of a device intended for manufacture. Protozoa Single-celled animals living in soil and water that are much more highly developed than bacteria. Radioactivity Harmful emissions from certain substances, such as radium, uranium, and plutonium, that are said to be radioactive. There are three types of radioactivity: alpha rays, beta rays, and gamma rays, that are composed of sub-atomic particles, such as neutrons, protons, and high-energy photons. Radiometric dating Method of establishing the age of rocks by measuring the rate at which radioactive substances lose their radioactivity. Resistance The degree to which a material allows electricity to flow through it without losing energy in the form of heat.
Shadowgraph Outline or silhouette image produced by blocking light from reaching a photo-reactive surface. Solar-powered Driven by electricity produced from sunlight. Speed of light Approximately 186,000 miles per second. Light travels at slightly different speeds through different media, for example a vacuum, air, or water. The speed of light through a vacuum is a constant throughout the universe. Stereoscopic Providing images that have depth (like those provided by a pair of eyes) as opposed to the flat images produced by cameras with a single lens. Transistor A transistor is a component of an electronic circuit that depends upon the variable conductivity of a semiconductor. Transistors are very small compared with the triode valves and vacuum tubes that they replaced. Triode valve Fragile glass and metal device used in radios and other electronic devices before the invention of the transistor. Ultrasound imaging Medical technique for providing images of the inside of a living body by using reflected sound waves. Vacuum tube A component of early electronic circuits. A vacuum tube was a hollow glass device containing complex arrangements of bare wires. The air inside the tube was evacuated, leaving a vacuum so that the wires did not burn out when they became hot during use. White light Sunlight that can be split into the colors of the rainbow by refraction through a glass prism and through raindrops.
Restriction enzyme Substance used to cut the long-stranded DNA molecule into short strands that each contains just a few genes. Semiconductor Substance, such as silicon, that conducts electricity in a variable and controllable manner. Semiconductors are widely used to make transistors and microchips.
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INDEX
INDEX The letters a, b, c, d following the page number indicate the column (from left to right) in which the information may be found on that page. A abacus 40b acupuncture 52a Adams, John Couch 19d adder-lister 52b, 53b adding machine 52b adidas 35c-d aerosol cans 52b Agassiz, Louis 14a Agfa Company 9d AIBO dogs 44b-c, 44d AIDS 10c Aiken, Howard 40a air conditioning 52b airbags 27d aircraft 11b-c, 28a, 28d, 29d, 57c computers for 41c airplanes see aircraft Al-Khwarizmi 11d Albutt, Thomas 22a Alcock, John 28a Alcom, Al 43b-c algebra 11d Allbutt, Thomas 22a Allen, Bryan 29d Allen, Paul G. 11a, 41d alphabet 6c, 9c aluminium 16a Alvarez, Luis and Walter 15d amalgam fillings 52c Ambre Solaire 50a Ampere, Andre 17d anaesthetics 23d anatomy 20a Andreessen, Mark 43a Anning, Mary 14b-d Antarctica 14a, 57c anthropology 14b-d antibiotics 22a antiseptic surgery 22c-d, 23d Appert, François 46a Apple Computers 40c-d, 41d aqua-lung 46a Archer, Frederick 9c Archimedean screw 52a Archimedes of Syracuse 46b-d, 52a Arduino, Giovanni 14a argon 16a Aristophanes of Byzantium 8a Arkwright, Richard 24a Arlandes, Marquis d’ 48b-d
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ARPAnet 42a, 42d artificial elements 51a-c Asimo 45d aspirin 52c astronomy 46c Atlantic cable 30a, 31d atomic bombs 10a atomic power stations 10a atoms 8d, 16d Australia 14a, 57c automobiles see cars axe heads 12a B Babbage, Charles 9b, 40a bacteria 16b-c Baekeland, Leo 25b-c Bain, Alexander 30a Baird, John Logie 8c, 33a-c, 33d Bakelite 25b-c Baker, John 39d balloons 29a-c ballpoint pens 46a Banting, Frederick 21c-d barbed wire 38a Barbie 37c Barbier, Charles 49a-c Bardeen, John 10d Barnard, Christiaan 11c, 23d basketball 37a baskets 12a bathometer 48b-d batteries 17d, 19d, 48a Battlezone 43b Baylis, Trevor 32b-c Bayliss, William 20a BBC 33d Beagle 2 45a beam engines 27b Beaumont, William 21a-b Becket, George 53d Becquerel, Henri 50b-d Bell, Alexander Graham 9a, 30a, 31a-c, 31d, 56c, 57d Bell, Thomas 52c Benz, Carl 26a Berg, Patrick 17b Berliner, Emile 36a Bernard, Claude 21c-d Berners-Lee, Tim 10c, 42b-c, 43d, 55b Bessemer, Henry and steel process 25c, 25d Best, Charles 21c-d Bezos, Jeff 43d Bichat, Marie-François 20a bicycles 26a, 50a Big Bang theory 15d bikini 52c bingo 52d
Binnig, Ged 55c Birdseye, Clarence 39a-b, 57c Biro, Ladislao 46a Black, Joseph 7a Blalock, Alfred 23d Bleriot, Louis 28a blood 20b-d Boeing 29d Bohlin, Nils 27d Bohr, Niels 8d bomb disposal 45b bones 21a-b books 8a, 43d Booth, Hubert Cecil 56c Bopp, Thomas 18a Borkenstein, Robert 27d Bowman, William 21c-d bows and arrows 6d Bradham–Caleb 54d Braille, Louis 9c, 49a-c brain 21c-d Bramah, Joseph 55a brassiere 35d Brattain, Walter H. 10d Braun, Karl Ferdinand 54c Braun, Werner von 18b breathalyzer 27d Breitling Orbiter 3 29b-c Brennan, Molly 27d Brewster, Sir David 37c, 55d bricks 13d British Antarctic Survey 15d Broca, Pierre Paul 21c-d bronze 12c-d Brown, Arthur 28a bubble gum 52d bubblewrap 53a Buckland, William 14b-d buckminsterfullerene 16d Budding, Edwin 34a Burgess Shale, Canada 15d Burroughs, William 52b Bushnell, Nolan 43b-c Butts, Alfred Mosher 37a C Cai Lun 8a-b calculating machines 52b, 53b calculus 47a-c Caley, George 28a camera obscura 53a camera phones 31b-c cameras 9c, 9d, 37b-c, 37d, 41b-c, 49a-c Campin, Robert 54c can-openers 53a cannon 6d Capek, Karel 44a, 44b-c carbon 16b-d, 16d carbon dating 10c
cardiac surgery 11c, 23d Carothers, Wallace 35b-c Carrier, Willis 52b cars 9a, 24b-c, 26a, 57b in-car computer 41b-c Model T Ford 24c-d, 26a, 26d cartography 48a Cartwright, Edmund 24a Caselli, Giovanni 33d cash register 53a cassette recorders 36a Cassini, Gian Domenico 19a Cassini-Huygens 45a cathold-ray tube 33d cat’s-eyes 53b cave paintings 13b-c Cavendish, Henry 16a CDs 17c, 36a, 41d cells 9b, 9c, 14b-d, 15d, 20, 21 celluloid 25b Celsius, Anders 46a central heating 6c Cerf, Vint 42a, 42b-c CERN 42b-c Chain, Ernst 22b-d chain reaction 10a chain-saw 53b chairs 13d, 57b champagne 49d Chappe, Claude 30a Chargaff, Erwin 15b chariots 6d, 7a Charles, Jacques-Alexandre-Cesar 29a Charon 19d Chase, Martha 11a, 15b Chavannes, Marc 53a chemistry 7a chewing gum 50a, 57c Chinese inventions 13a, 13d, 18b chocolate 39c, 39d, 54a Christy, James Walter 19d chromosomes 15d cinema 37d Clanny, William 54b clarinet 36b classification 14a Claude, Georges 54b clocks 6a-b, 7d clockwork radio 32b-c cloning 17a-c coaxial cables 31d Coca-Cola 38c-d Cockerell, Christopher 29b Cohen, Fred 42a Colmar, Thomas de 52b Colossus 9b, 40a, 41b-c Colt, Samuel 24b
Columbus, Christopher 38a, 39d Comet Hale-Bopp 18a Comet (jet airliner) 29d communications 30-3 comptometer 53b computers 9b, 37d, 40-1 games 43a-c Concorde (aircraft) 11b-c concrete 25a, 25c, 57d construction industry 25a-c Cook, James 14a Cook, Thomas 54c Cooke, William Fothergill 30a Cooper, Martin 31b-c Coover, Harry 55d Copernicus, Nicolas 18a copper 12b, 24d cornflakes 39c Cornu, Paul 28a Cort, Henry 25d Cortez, Hernando 39d cosmic radiation 15d cotton 8c-d, 13d cotton buds 53b Courtois, Bernard 16a Cousteau, Jacques 46a Crapper, Thomas 34c-d Crick, Francis 11a, 15c, 51a-c crisps 39a-b Cristofori, Bartolomeo 36b Crompton, Samuel 24a Crum, George 39a-b Crystal Palace 25a-b CT scanners 23b Cudzik, Daniel 55a Cugnot, Nicholas 27b-c cuneiform 13a Curie, Marie 50b-d Cushing, Harvey 21a-b cyber pets 44d cyclotron 9a, 16d Cye Robot 44c D Daguerre, Louis 9c Daimler, Gottlieb 26a, 26d Dante II 45b, 45d Darby, Abraham 25d Darby, Norman 56d Darrow, Charles B. 37c Darwin, Charles 15a Dassler, Adolf (Adi) 35c-d Davis, Jacob 35a Davy, Humphry 16a, 17d, 53d, 54b DDT insecticide 53b decimals 11d Deere, John 38a Deforrest, Lee 32a Denner, Johann 36b Devol, George 44a, 45b-c Dewar, James 56a dialysis 22a Dickson, Earle 55a Diemer, Walter 52d
Diesel, Rudolf 26d Difference Engine 40a digital cameras 41b-c digital films 37d digital music 36c-d digital radio 32a digital television 33d digital watches 19d dimples 57c dinosaurs 14b-d, 15d direct drive arms 45d Disney 37d disposable nappies 35a diving bells 47d diving suit 53c Dixies 54c DNA 10b, 11a, 14b-d, 15a-c, 17a, 17b, 20b-d, 51a-c Dobney, Ted 43b-c Dolly the Sheep 11a, 17a-c Domain Name System (DNS) 42a Drais de Sauerbrun, Baron Karl 56d Drake, Edwin 27a Drew, Richard 55d drink 38-9 Dubois, Eugene 15b Dunlop, John 26a DuPont Textiles 35b-c, 48a DVDs 17c dyes, mauve 24a dynamite 25a-b Dyson, James 34b, 53b, 53c E ears 21a-b Earth 14b-d, 15d earthquakes 49d Eastman, George 9c, 9d, 49a-c Edison, Thomas Alva 8c, 31d, 37d, 49a-c, 52a, 56a, 57d electric light bulb 34c-d, 49c, 57b phonograph 8d, 36a, 49b Edwards, Robert 23c Egyptian inventions 6d, 7a, 7b, 10a-b, 13a Ehrlich, Paul 22a Einstein, Albert 11d, 50b-d, 51a, 55d Einthoven, Willem 22a electric light 49a-c, 57b electric vehicles 26a, 27d electricity 10a, 17d electrocardiograph (ECG) 22a electrolysis 17d electromagnetism 30a, 32a electron microscope 53c elevator 25c email 42a, 42b-c EMI 33c emoticons 42a endorphins 20a Engelbart, Doug 41b-c
engines 26-9 Engle, Joel 31b-c engraving tools 12a ENIAC 40a, 40c-d Enigma coding machine 9b, 41b-c enkephalins 20a Ericsson, John 29a ESA 19a-b escalator 53c Essen, Louis 7d Eustachio, Bartolomeo 21a-b Everett, Bart 55b evolution 15a Eyck, Jan van 54c F Fabri de Peiresc, Nicolas-Claude 18a Fabricius, Hieronymus 21c-d Fahrenheit, Daniel 46a Fallopio, Gabriello 21a-b Faraday, Michael 17d farming 7a, 12b-d fashion 34-5 Faure, Camille 26a fax machines 30a, 31d Felt, Dorr E. 53b Fermi, Enrico 10a, 51a-c fermium 51a-c Ferris, George W. 53d ferris wheel 53d fertiliser 38a Fessenden, Reginald A. 32a fibreoptic cables 31d field-ion microscope 53d Fielding, Alfred 53a films 37b-c, 37d Filo, David 43d fingerprinting 8c-d fire 7b firearms 24b firefighting 45c Fisher, Alva 34a fishfingers 39b fission 10a Fitch, John 29a flags 13d flax 12a Fleming, Alexander 22a, 22b-d flight see aircraft flints 6b-c, 7b, 12a floppy disks 41d Florey, Howard 22b-d Flying Shuttle 24a food 38-9, 46a, 57c Ford, Henry 24c, 26a, 26b-d, 57b Ford Motor Company 9a, 24c-d, 26a, 26d, 38a fossils 14a, 14b-d Fox, Daniel 25c Fox, Samuel 56b Franklin, Benjamin 34a, 47d Franklin, Rosalind 15c
Fraze, Ermal 55a Freyssinet, Eugene 25c frozen food 57c Fry, Art 55a Fry, Joseph, and Son 39d Fulton, Robert 27c Funk, Casimir 20a Furby 45d furniture 13d, 57b, 57d Fust, Johann 48b-d G Gadolin, Johan 16a Gagnan, Emile 46a Galapagos Islands 15a galaxies 8c, 18a Gale, Claudius 20a Gale, J.G. 19d Galen, Claudius 20a Galileo Galilei 6b, 7b, 18a, 46b-d, 47d Galton, Francis 8c Gameboy 43c games 42-3 Gamow, George 17a gas lighting 34a Gates, Bill 10d, 11a, 41d Gayetty, Joseph 34d generators 17d genes 10d, 14a, 15d, 20b-d genetic engineering 17a-c Genghis 45d geology 14a germanium 16a Gerstenbzang, Leo 53b Gesner, Conrad 54d Gilbert, William 14a Gilchrist, Percy and Sidney 25d Gillette, King C. 47d glass 7b Glidden, Joseph 38a gliders 28a, 28c GM (genetically modified) crops 17c Goddard, Robert 18b Goetze, Martin 57c gold 13d Goldman, Sylvan 56a Goldmark, Peter 36c Goodwin, Hannibal 37d Gorrie, John 34a Gould, John 15a Graaf, Regnier de 21a-b Graham, Bette Nesmith 54a gramophone 36a gravity 47a-c Gray, Elisha 57d Great Eastern (ship) 31d Great Exhibition 25a-b Greek alphabet 6c Green, Andy 27d Gregory, John 18d Gresley, Sir Nigel 27a grindstones 12a, 13d
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INDEX gunpowder 18b Gurdon, John 17a Gutenberg, Johannes 7b, 8b, 48b-d H hadron colliders 16b-d, 16d Hale, Alan 18a Halley, Edmund 18a, 47d Halley’s Comet 18a Halstead, William 56a Hanan, John 39d Handler, Ruth 37b-c Hargreaves, James 24a Harington, Sir John 34c harpsichords 36b Harrison, John 29c Harvey, William 20b Havers, Clopton 21a-b Hazbots 45a-c heart transplants 11c, 23d Heim, Jacques 52c Heinkel, Ernst 29d helicopters 28a, 29d helium 16a helium balloons 29b-c Helmholtz, Hermann von 22a Henry, Sir Edward R. 8c heredity 14a Hero of Alexandria 56d Herodotus 55c Herschel, Sir William 19a Hershey, Alfred 11a, 15b Hertz, Heinrich 32a Hetrick, John W. 27d hieroglyphs 13a Higinbotham, William A 43a Hill, Julian 35b-c Hill, Rowland 30c-d hip replacements 23d Hirose, Shigeo 44a Hiroshima 10a HIV virus 10c Hobbs, A.C. 55a Hoff, Ted 41a Hoffmann, Felix 52c Hollerith, Herman 40a homes 34 homo erectus 15b hormones 20a, 21c-d horse-collars 12b horseshoes 12c Hounsfield, Godfrey 23b Houten, Conrad Van 39d Houtermans, Fiesel 15d hovercraft 29b Howe, Elias 24a Hubble, Edwin 8c, 18a Hubble Space Telescope 19a-b human body 20-1 Human Genome Project 10d, 20b-d Hunt, Walter 24a, 55b Hunter, John 23d Hunter, Matthew 16a
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INDEX Huntsman, Benjamin 25d Huxley, Andrew and Hugh 21c-d Huygens, Christiaan 6b Hyatt, John 25b hydrogen 16a hydrogen balloons 29a hydrogen bombs 10b-c I IBM 40a, 41d Ibuka, Masura 36b Ice Age 14a iconoscope 33c Imperial measures 11d induction 17d Industrial Revolution 24b-d industry 24-5 ink 13d insulin 21c-d Intel 41a, 41d internal combustion engines 26b-c, 27a Internet 10c, 42-3 iodine 16a iPod 36a iron 12d, 25a, 25d irrigation 12b, 57c IVF (in vitro fertilization) 23c J Jacob, Mary (Caresse Crosby) 35d Jacobs, Irwin 31b-c Jacquard, Joseph-Marie 24a, 24b-c James, Richard 55c Jansky, Karl 18a Janssen, Pierre 16a jeans 35a-b Jeffreys, Alec 10b Jenatzy, Camille 27d Jenner, Edward 9a, 22a, 23a-c jet engines 28d, 29d Johns, Steve 41d Johnson, Denis 56d Jones, Brian 29b-c, 54a Joyner, Fred 55d Jupiter 18a, 19a K Kahn, Bob 42a, 42b-c kaleidoscope 37c Kanade, Takeo 45d Kayz, John 24a Kellogg, Will and John 39c Kelly, Henry 25d Kelly, William 25d Kevlar 48a keyboards 41d keyhole surgery 23d kidneys 21c-d, 22a, 23d kinetoscope 37d, 49a-c King Htai Tjong 8b Kirk, Ole 37a Koch, Robert 22a Kodak 9d, 41b-c, 49a-c Kolff, Willem 22a
Kwolek, Stephanie 48a L la Condamine, Charles Marie de 55b Laënnec, René 22b Land, Edwin 9d Landsteiner, Karl 20c Lascaux cave paintings 13b-c lasers 16b-d, 17a-c eye surgery 23d laughing gas 53d Lavoisier, Antoine-Laurent 6c lawnmowers 34a, 44c Lay’s potato chips 39a-b Le Prince, Louis Aimé Augustin 37d Le Verrier, Urbain 19d lead 12b leather 12a Leclanché, Georges 48a Lecointe, Sadi 27d Leeuwenhoek, Anton van 16b-c Leffler, Carl 52d LEGO 37a Lego, Godfred Kirk Christiansen 37a leisure 36-7 Lemaitre, Georges 15d lemonade 53d Lenormand, Louis 54d Lerp, Emil 53b letterbox 53d Levene, Phoebus 15a Levi’s 501 Jeans 35a-b LEXAN polycarbonate 25c Libby, Willard F. 10c lie detector 53d light bulbs 34c-d, 49a-c lightning conductor 47d Lilienthal, Otto 28a Lindberg, Charles 29d linen 12a Linnaeus, Carolus 14a, 39d linoleum 34a Lippershey, Hans 7c, 18a, 18c-d liquid paper 54a Lister, Joseph 22c-d liver 21c-d locks 51d, 55a Lockyer, Norman 16a longitude 29c Loud, John 46a Lowe, Edwin 52d Lowell, Percival 19d Lucas, George 37b-c Lucy (hominid skeleton) 11b Ludwig, Ludwig 21c-d Lumière, Auguste and Louis 37d lungs 21a-b Lydians (Turkey) 55c M M&M’s 54a McAdam, John 54a Macadamized road 54a
McCormick, Cyrus 38a MacCready, Paul 29d McIndoe, Archibald 23d Macintosh, Charles 35b-d Macintosh Computer 41d Mackay, David S. 19c mackintosh 35b-d Macmillan, Kirkpatrick 26a Magee, Carlton 54d Magie, Lizzie G. 37c magnetism 14a, 17d Maiman, Theodore 17a Mallard (locomotive) 27a Malpighi, Marcello 20b Manhattan Project 10a Marconi, Guglielmo 9a, 32a, 32b-c Marey, Etienne-Jules 37d margarine 54b Maron 44c Mars, Frank and Ethel 48a, 54a Mars (planet) 19a-b, 19c mass production 24b-d matches 54b, 55a mathematics 11d Mattel Inc. 37c, 43b Matthews, Drummond 15d mauve dye 24a Maxwell, James Clark 17d, 32a May and Smith 33d Maybach, Wilhelm 26a Mayor, John 21a-b medicine 22-3 Mege-Mouries, Hippolyte 54b Meldeleev, Dmitri 16b-c Mendel, Gregor 14a, 15d Mercator, Gerhard 48a Mercury (planet) 19c Mesopotamia (Iraq) 7c, 7d, 13b-c, 13d, 56d Mestral, George de 56c metal 12b-d see also named metals Metchnikoff, Elie 20c metric measures 11d Michtom, Morris 49d microchips 41a microphones 31d, 49a-c microprocessors 41a, 41d microscopes 16b-c, 53c, 53d, 55c Microsoft 11a, 41d, 43c microsurgery 23d microwave ovens 34a Miescher, Johann 15a milking machines 38a Milky Way 8c, 18a Mills, Vic 35a Minoans, printing 8a mirrors 13d Missile Attack 43b mobile phones 31b-c, 41b-c Monier, Joseph 25a Monopoly 37c
Montagnier, Luc 10c Montgolfier, Joseph and Jacques 29a, 48b-d Moore, Hugh 54c Moravec, Hans 44a Morgan, Garrett 56b Morris, Robert 43d Morse code 9a, 30c-d, 48b-d Morse, Samuel 30a, 30c-d, 48b-d, 57b Morton, William 23d Mosaic web browser 43a, 43d MOSRO 44b motorcycles 26a Motorola 31b-c mouse (computer) 41b-c movies see films MP3s 36a, 36c-d, 42a MS-DOS 11a, 41d Mueller, Erwin 53d Muller, Paul 53b Mullis, Kary 15c mummies 10a-b Muntz, George 24d Murdock, William 34a muscles 21c-d musical inventions 36 N Nagasaki 10a Naismith, James 37a NASA 11a, 19a-b, 19c Nathans, Daniel 17b neon signs 54b neoprene 35b-c Neptune 19d neptunium 51a-c neurons 20a Newcomen, Thomas 27c Newton, Sir Isaac 18d, 47a-c, 50d, 53a Niepce, Joseph 9c Nieuport-Delage racing car 27d night writing 49a-c Nintendo 43a, 43c Nipkow, Pual 33d Nirenberg, Marshall 15c Nissen, George 56b nitrogen 16a nitroglycerine 54b Nobel, Alfred 25a-b nuclear power 10a nuclear reactor 51a-c nuclear weapons 9a nylon 35b-c O Oberth, Herman 18b OFRO robots 54c Ohain, Pabst von 29d Ohm, Georg 17d oil 27a oil painting 54c Olds, Ransome 24b-c, 26a Oldsmobile 26a Olmec Indians 39d
Olson, Ken 40b ophthalmoscope 22a Opportunity 45a optics 47a-c Orion Nebula 18a orreries 18b-d Orsted, Christian 16a oscilloscope 43c, 54c Otis Company 53c Otis, Elisha 25c Otto, Nikolaus 26b-c ovens 12a, 34a Owen, Sir Richard 14b-d oxygen 6d ozone depletion 15d P package holidays 54c paddlewheels 29a painkillers 20a, 52c painting 13b-c, 54c palaeontology 14b-d pancreas 21c-d Pannartz, Arnold 8b Pantelegraph 31d, 33d paper 8a-b, 13b-c paper cups 54c Papworth, Neil 31b-c papyrus 13b-c parachutes 54d Parkes, Alexander 25a-b Parkesine 25a-b parking meters 54d Parkinson, James 14b-d Parther, Vic 29c Pascal, Blaise 11d Pasteur, Louis and Pasteurization 38b-d patents 57 Patterson, Claire 15d Paxton, Joseph 25a pay-phones 31d PCR (polymerase chain reaction) 15c PCs 11a, 41d Pedrick, A.P. 57c Pemberton, John Stith 38c-d pencils 54d pendulums 6b, 47d penicillin 22a, 22c Penzias, Arno 15d Pepsi-Cola 54d Perignon, Dom 49d periodic table 16b-c Perkins, William 24a Perry, Stephen 55b Perutz, Max 20d Peter, Daniel 39d Philips 36a phlogiston 16a Phoenician alphabet 6c phonograph 8d, 36a, 36d, 49a-c photography 9c-d, 49a-c pianos 36b-c
Piccard, Auguste 29b-c pictograms 13a Pilatre de Rosier, Jean François 48b-d Pioneer 45a-b pituitary gland 21a-b Pixar 37d planets 11a, 19 Plante, Gaston 26a plasters 55a plastic surgery 23d plastics 19d, 25a-c plate tectonics 15d Playstation 43c Plimpton, James Leonard 37a plows 12b, 12c-d, 38a, 51d Pluto 19d plutonium 9a pneumatic tyres 26a Polhelm, Christopher 25d pollination 12b Polly, Jean Armour 43d polycarbonate 25c Pong 43a, 43b-c Porta, Giovanni Battista Della 53a post-it notes 55a postage stamps 30c-d Potassium 16a pottery 13b-c Poulsen, Valdemar 36a power looms 24a power stations 8c Priestley, Joseph 6d, 55b printers, computer 41b-c printing 7b, 8a-b, 48b-d Proctor and Gamble 35a puddling process 25d punctuation 8a Pythagoras’ theorem 11d Q Quantum Project 43d querns, rotary 13d R radar 51d radio 9a, 32 radio waves 18a radioactivity 45a-b radiotherapy 50b-d railway locomotives 27 Ramsay, William 16a Rawlings, John 55a rawlplugs 55a razors and razor blades 47d RCA Victor 36c RealAudio 43d reaping machines 38a Reard, Louis 52c recording machines 36a refrigerators 34a Reis, Philipp 30a relativity 11d, 50b-d restriction enzymes 17b
Richter, Charles F. 49d ring-pull cans 55a Ritty, James 53a Riva-Rocci, Scipione 22a road vehicles 26a Robertson, Christopher 57c Robertson, Frank M. 38c-d Robomow 44c Robosapien 44d robots 23d, 44-5, 54c, 55b Robotuna 45d Robug-3 45c Rocket (locomotive) 27b-c rockets 18b Roentgen, Wilhelm 22a, 23a-b Rohrer, Heinrich 55c Rohwedder, Otto Frederick 34a, 55c roller skates 37a Romans 6c, 55c Roosevelt, Theodore 49d rope 12a Rosetta 45a Rosing, Boris 33d Roslin Institute, Scotland 11a Ross, Malcolm 29c rotary power 27b-c Rothheim, Erik 52b rubber 55b rubber bands 55b Rubik, Erno 50a Rubik’s Cube 50a Rusch, Adolf 8b Ruska, Ernst 53c Rutan, Richard 29d Rutherford, Daniel 16a S safety lamp 54b safety pins 55b sailboards 56d salvarsan 22a sandwiches 38b Santiago y Cajal, Ramón 20a Santorio, Santorio 20a satellites 33a Saturn 19c Saunders, Clarence 56a Savery, Thomas 27b scales 13d Scheele, Carl Wilhelm 6d Scheinman, Victor 44a Schleiden, Mattias 9c Schueller, Eugene 50a Schwann, Theodor 9c scissors 55c Scotch Tape 55d Scrabble 37a screw propellers 29a Scudder, Mrs 39a-b seat belts 27d Sedna 11a-c Seeburger, Charles 53c
63
INDEX seed drill 38a Sellotape 55d semiconductors 17c Semple, William Finlay 50a sewing machines 24a, 57b shaduf 12b Shakey 44a Shaw, Percy 53b Sheffield, Washington 56b ships 24d, 27c, 29a Shockley, William B. 10d Shoenberg, Isaac 33b-c Sholes, Christopher 56b shops 55c shore to ship radio 32a sickles 12b Siebe, Augustus 53c Siemens, William 25d Siemens-Martin process 25d Sikorsky, Igor 29d silver 13d Silver Arm 44a Silver, Spencer 55a Sinclair, Clive 50a Singer, Charles 57b Singer, Isaac 24a, 57b Sky 33d sliced bread 34a, 55c Slinky 55c Smart 1 45a Smith, Hamilton 17b Smith, Richard 51d Smith, William 14a Sobrero, Ascanio 54b Soft Gripper 44a Sojourner 45d solar power 27d solar system 19 Solnhofen, Germany 14b-d Sony 32d, 36b, 44d sound barrier 27d, 28d space 18a-d, 45a, 45d Spacewar! 43a special effects 37b-c spectacles 55d speed 27d Spencer, Percy LeBaron 34a sphygmomanometer 22a Spinning Jenny 24a, 24b-d Spinning Mule 24a Spirit 45a Spirit of St. Louis 29d Stanford Arm 44a Stanford Cart 44a, 45d Stanley, Francis and Freelan 27d Stanley steamer 27d Starling, Ernest 20a statistics 11d steam locomotives 27 steam power 26b, 27 steamboats 27c, 29a steel 25d
64
Steno, Nicolaus 14a Stephenson, George 54b Stephenson, Robert 27b-c Steptoe, Patrick 23c stereoscope 55d stethoscope 22b sticky tape 55d Stihl company 53b stomach 21a-b stone tools 6b, 12a stoves 34a stratigraphy 14a Strauss, Levi 35a-b Strite, Charles 34a Strowger, Almon 31a Strutt, John, Lord Rayleigh 16a submarines 29a-b Sumerians 7c, 13a sundials 6b Sunraycer 27d suntan lotion 50a superglue 55d supermarket 56a supermarket trolley 56a surfing 43d surgery 22c-d, 23d surgical gloves 56a surgical instruments 22d, 23d Sutton, Walter 15d Swammerdam, Jan 20b Swan, Sir Joseph Wilson 34c-d sweets 48a Sweynheim, Conrad 8b Swinton, Alan Campbell 33b-c syphilis 22a T Takara Aquaroid Fish 44d Talbot, William 9c talkies 37d tape recorders 36a Taveua, August 52c Teddy Bears 49d telegraph 30a, 30b, 30d, 31d, 48b-d, 49a-c, 57b telephones 9a, 30a, 31, 41, 57d telescopes 7b-c, 18a, 18c-d, 19a-b, 47a-c television 8c, 33 Telstar 33a temperature scales 46a Tennis for Two 43a Tesla, Nikola 17d, 44a test pilots 28d text messaging 31b-c textile industry 24b-d thermometers 22a, 46a Thermos flask 56a three field system 12c threshing machines 38a Thrust SSC 27d titanium 16a toasters, pop-up 34a toilet paper 34d
toilets 34c-d Tokyo Institute of Technology 44a Tombaugh, Clyde 19d Tomlinson, Ray 42a, 42d Tomy Human Dog 44d tools 6b, 7, 12a, 19d toothpaste tubes 56b Toussig, Helen 23d toys 36-7 tractors, Ford 38a traffic signals 56b trainers 35c-d trampoline 56b transistors 10d, 17d, 32a, 32d, 40a, 41a transplants 11c, 23d Trevithick, Richard 27c Triantafyllou, Michael 45d triode valve 32a Trivial Pursuit 56b Ts’ai Lun see Cai Lun Tsiolovsky, Konstantin 18b tuberculosis (TB) 22a Tull, Jethro 38a Turcat, Andre 11c Turing, Alan 9b, 41b-c type 8b typewriter 56b U Ultimate 44a ultrasound images 22a umbrella 56b UNIVAC 40c-d universe 18c uranium 10a Uranus 19a V vaccination 9a, 22a, 38b-d vacuum cleaners 34b, 53b, 56c vacuum tubes 41a Vanderbilt, Cornelius 39a-b veins 21c-d Velcro 56c velo-douche 57b velocipede 56d vending machine 56d Venus 19b Vesalius, Andreas 20a, 20d video cameras 41b-c video phones 31b-c Vinci, Leonardo da 28a, 44a, 47a-c Vine, Fred 15d virus, computers 42a vitamins 20a Vodaphone 31b-c volcanoes 45b, 45b-c Volta, Alessandro 17d, 48a Voyagers 1 & 2 45d W Wakefield, Ruth 39c Walcott, Charles 15d Walker, John 54b
Walkman 36b Walton, Frederick 34a Warner Brothers 37d washing machines 34a Washkansky, Louis 11c watches 19d, 29c see also clocks water 6c water power 24a Watson, James 11a, 15c, 51a-c Watson, Thomas 31a, 40b Watson-Watt, Robert Alexander 51d Watt, James 27b-c WC (water closet) 34c weapons 6d, 9a, 10a, 10b-c, 12a, 24b weaving 12a, 24a web browsers 43a Wertheimer, Max 53d Wheatstone, Charles 30a, 55d Wheelbarrow 45b Wheeler, George 53c wheels 7d, 13b-c, 13d Whitney, Eli 8c-d, 24b Whittle, Frank 28d, 29d Wiles, Philip 23d Wilkins, Maurice 15c Wilmut, Ian 17c Wilson, Robert 15d wind tunnels 28c Windows (computer systems) 11a, 41d, 43d windsurfer 56d Winkler, Clemens 16a World Wide Web 10c, 36a, 42b, 43a, 43d worm, internet 43d Wozniak, Steve 41d Wright, Orville and Wilbur 9b, 28a, 28b-c, 57c writing 7c, 13a, 49a-c wrought iron 25d X X-Box 43c X-rays 15c, 22a, 23a-b Y Yahoo! 43d Yale, Linus 51d Yang, Jerry 43d Yeager, Chuck 28d Yeager, Jeana 29d Yeates, Robert 53a Yttrium 16a Z Zeppelin, Ferdinand von 29a Zeppelins 29a zinc 24d zodiac signs 56d Zuse, Konrad 40a Zworkykin, Vladimir 33b-c
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