James Dyson - Dimbleby Lecture transcript
THE RICHARD DIMBLEBY LECTURE 2004
"ENGINEERING THE DIFFERENCE" by JAMES DYSON
8th December 2004
It's fair to say none of us would be here if it wasn't for an engineer. John
Logie Baird. A bit of a crackpot. But if it wasn't for him - and several
other inventive engineers - there would be no television. Without TV, the BBC
might not exist. In which case, I wouldn't have joined millions of viewers watching
the Queen's Coronation in June 1953. Stuck in remote north Norfolk, it was the
first time I'd seen a television. The experience was made all the richer by
Richard Dimbleby's commentary. Over the next few years, he became a regular
fixture in my mother's living room. As the presenter of Panorama, I'll always
think of him as the face of serious television in my youth. Had it not been
for television, it's fair to say Richard Dimbleby and his sons wouldn't have
made their reputation in quite the same way. And this lecture, held in their
father's memory, wouldn't be taking place.
Logie Baird started quite something, when you think about it. And here I am,
the first engineer to deliver the Dimbleby Lecture. And look... I'm not wearing
overalls. If it alarms you to have to listen to an engineer, let me reassure
you. Like you, I once thought engineers were quite beyond the pale. My family
were all from a liberal arts background. My parents taught the arts. And as
a schoolboy, I didn't know what an engineer or even an architect did. I was
a Classics scholar who went to art school. While at the RCA, I accidentally
discovered the glories of making things. And I can tell you it was quite a shock
when I realized I was getting interested in engineering. Now, as I said, no
engineer has ever stood here before. And the last industrialist to occupy this
spot did so nearly 20 years ago. I can't help thinking, that long absence says
something about the way we regard engineers and manufacturers. Manufacturers
and engineers make things to improve our lives and create wealth. But they're
less important to us than those who occupy their time writing about it or worrying
about it. It was this disregard for the engineer's creation - the manufactured
object
- that led me to stand down as Chairman of the Design Museum a month or so ago.
There are two sides to the design coin. There is serious design - making sure
that the manufactured object performs its task in the best possible way. And
there is styling - the essentially superficial task of making sure something
looks attractive. Both are important to me. After all, my wife is a rug designer
and an artist. My daughter and son-in-law design clothes.
However, the Design Museum was set up by Terence Conran to champion the manufactured
object. There are dozens of places that examine style. The V&A, art galleries,
newspapers and style magazines. There are very few places that focus seriously
on how and why we make things.
I felt the Museum was failing to get the right balance. I still care deeply
about the Design Museum, but in its current guise, I have little to contribute.
So I stepped down. A day or so after my resignation, I turned on the radio.
When I resigned, I had mentioned a Constance Spry exhibition and now the Today
programme was interviewing two flower arrangers. The interviewer cut through
the florists' proclamations, about the life-enhancing effects of lilacs, to
ask a very pertinent question. Can you really, he asked, say that flower design
is as important - or even the same - as designing an aero plane?
Their answer? "Of course it was." I knew there and then that my decision
to go had been correct. And that it said something about our appreciation -
or rather lack of appreciation - of manufacturing. My resignation caused quite
a rumpus. At the Museum, the visitor figures shot up by 50 per cent! Butlers
Wharf had never been so popular. Meanwhile, in the press, my departure was being
deconstructed as a clash between the past and the future. I was told that styling
had usurped engineering in the latter half of the 20th century. And that it
went deeper than just a change of fashion. My values of technology and manufacturing
were old-fashioned, they said. And if our economy was to succeed, I had to realize
something: "The future prosperity of developed nations, rested in the hands
of stylists."
"Engineering belonged in the past."
Yet here I am. Someone whose recipe for success, has been to make things that
people want to buy. Not because they look better - although of course I hope
they do - but because they work better. I have spent 35 years making things
in a country that often has little regard for its manufacturers. It has left
me more convinced than ever that engineering is this country's future.
And that styling for its own sake is a lazy 20th century conceit. One that has
passed its sell-by date. This world is driven by technology.
WE HAVE NO CHOICE but to shake off our obsession with styling. And to focus
on creating new more-advanced products. The first thing we must do, is divest
ourselves of several lazy misconceptions. What kind of deceits? "That the
18th and 19th centuries were a golden age of manufacturing. "They weren't.
"That Britain once led the industrial world. And that we really knew how
to make things well." We didn't.
"That we are a nation of inventors, more creative than anyone else."
We're not and we never have been. "That the service and creative industries
- there's an oxymoron for you - can replace manufacturing." They can't.
"That long-lasting wealth can be consumer generated." That's just
plain naïve.
"That engineering doesn't have a place in a post-industrial society. Rubbish.
That the industrial future belongs to companies producing intangible goods such
as computer software or information." More rubbish. It is essential that
we dump hoary old myths if we want to maintain our
wealth, power, and influence over the future. This evening I'll explain why
and how. Unlike most of the commentators, I have 35 years' experience of making
things. And it's taught me a lot. However, the biggest lesson came four years
ago when I located our assembly in Malaysia. Much as I was resisting the change,
there were very clear reasons why we had to change direction. We needed to invest
heavily in research and development. But our manufacturing costs were going
up and our market place prices were going down. And we were trying to expand
our factory in the face of local planning opposition. Meanwhile all our competitors
were manufacturing in China, while we were watching our profits go into freefall.
I could see our demise. But the biggest problem was that we had no local suppliers.
Our British three-pin plugs were made in Malaysia. Our polycarbonate plastics
came from Korea. Our electronics came from Taiwan. It was a logistical nightmare.
We needed our suppliers on our doorstep so that we could drive them to improve
their quality and keep pace with technology. In the 1970s, when I was
developing the Ball barrow, I needed some bent metal
tubing. I got in my car and went to Birmingham. In the space of a few streets,
I found workshops and suppliers who between them could provide the
tubing, cut it, bend it and coat it. It was an extraordinarily vital environment.
And it was absolutely essential to the small engineering entrepreneur.
You might ask what happened to these British suppliers and subcontractors? Quite
simply: we drove them out of existence. Employment and property laws made it
difficult for them to take on extra staff and premises. They needed a tax regime
that appreciated the volatile nature of their business. Instead, Governments
imposed PAYE and hammered them with high interest rates, year after year. By
the mid-1980s, most had gone to the wall. Moving Dyson production abroad was
a tough decision. Most especially because I had to make 550 people redundant.
However, it meant we could cut our costs, and expand our production. We could
invest in R&D and employ more staff. The upshot is that we now have more
people at Malmesbury than ever. All of them are in higher-skilled, better-paid
jobs. Most are scientists and engineers. They contribute more to the local economy.
And as a company we pay much more in taxes than we did four or five years ago.
In Malaysia, the biggest benefit has been that all our suppliers are within
10 miles of the factory. Some were there anyway. Others we developed, such as
a tent pole maker. We got him to make our highly-engineered telescopic handles.
And he turned out to be much better than our previous German suppliers.
At this stage, the benefits are obvious. Our engineers and scientists are in
Wiltshire. For a company that depends on innovation, that's what counts.
The know-how is here. It's British. It generates money for the British economy.
Thousands of other companies are doing what we were forced to do. From Doc Marten
shoes and Hornby train sets, to Sony's high-tech electronics, they were all
failing to make things competitively in their home markets, and moved their
production to China. This shift has led to a huge period of wealth creation.
But it won't last. Why? Because countries such as China have already mastered
low-cost production. Now they are buying Western know-how - the joint venture
between Shanghai Automotive and MG Rover, is primarily to secure rights to Rover's
technology. Chinese companies are also copying Western styling. I should know
- I'm constantly having to stop them. Their universities are churning out vast
numbers of engineers and scientists. And they're good. They're taking on Western
companies by snapping up Western brands. Today, a Chinese company bought IBM
Personal Computers lock, stock and barrel. Manufacturing, management and the
brand. Chinese corporations have bought Thomson and RCA televisions, Dirt Devil
and Vax vacuum cleaners, Alcatel cellphones, and Dornier aircraft. To survive
against them, we can't just rely on shallow styling. We need technology and
design that they don't have. As long as we continue to innovate and produce
products that have better features and work better, we can compete. Our only
chance for survival is better engineering. Now I'm frequently told that championing
manufacturing is yesterday's game. That we live in a post-industrial society.
That the service and creative industries have replaced manufacturing.
Well consider this: Of the world's 10 largest corporations by revenue,
nine make big, heavy things. Like cars or ships' turbines or computer
hardware or consumer electronics. These companies rely on their engineering
and their technology - not their styling - for their wealth. Only one
- WalMart - is a service company. Look at the most profitable companies
and again the facts speak for themselves. In the top ten, only three are
service companies. And as for the world's least profitable company? Why
it's Vodafone, a service company that made a loss of more than fifteen
billion dollars last year. So why does Britain need a manufacturing
industry in this supposed age of the service economy? My answer is simple.
We have no choice. Only one in seven British jobs is in manufacturing,
yet they generate nearly two-thirds of exports. Manufacturing creates
the wealth and spending power that feed the service industry. It's
obvious. The rest of the world relies on manufacturing for its wealth.
Why do we think we can be different? If we want to maintain our position
alongside other leading nations, we've got to join the rest. We must take
steps now. In ten years time China, with its mantra of employment over
profit, will not only be the workshop of the world, it will be the technological
superpower. And what will happen to us? Britain's service industries
will wither without their manufacturing customers. Call centres and software
developers are already disappearing to efficient service economies. Such
as India.
Innovation will be stifled. We will be surrounded by products that we
have not made. That's something that is already culturally destructive.
Ultimately we will be at the mercy of the buying habits of Chinese shoppers.
The impact on the trade deficit will be ruinous. The loss of manufacturing
expertise will compromise our military strength. History repeatedly shows the
correlation between a nation's wealth and its
diplomatic and military powers. Before the Industrial Revolution, Britain accounted
for just one fiftieth of the world's manufacturing output, while China spoke
for a third. Fewer than a hundred years later, China had been invaded by a small
British army. Its industry was now backward. Britain, with two per cent of the
world's population, was making nearly half the world's goods. And politically
we led the world. So if we want to protect our quality of life and our influence,
we must maintain our average wealth - our GDP per capita. The only sure way
to do that, is to continue to innovate and manufacture. I believe manufacturing
is the future, not the past. And we need to be clear what manufacturing means
in the 21st century. It boils down to three models:
Firstly, high-tech manufacturers such as jet engine maker Rolls-Royce. These
survive in the face of lower-cost economies simply because they have the engineering
know-how. The RB211 jet engine was a revolutionary leap of technology. Airlines
value features and reliability over price. As long as Rolls-Royce maintains
its engineering edge, it can manufacture in a high-cost economy. Then there
are companies like Dyson - creating products in Britain, but making them abroad.
We've pared our costs to the minimum but we've maintained our head offices in
our expensive home nation. Why? Because we've spent more than a decade building
up a highly-talented team of engineers and scientists, to develop our technology
and ensure our future. Finally, there are companies such as the stylish Apple.
Outside contractors do their manufacturing and engineering. Apple maintains
its value by marketing its brand expertly. However, in my mind this could make
Apple vulnerable. If a rival makes a significant technological leap, then styling
and branding will count for nothing. So again it's plain to see. In all three
scenarios, only innovative engineering will guarantee a future. But to get engineering
and manufacturing right in the future, we need to recognize our strengths and
failings in the past. I am convinced the industrial revolution happened not
because we were a particularly inventive or industrious nation, but simply because
of circumstance. By the early 16th century, we'd cut down most of our forests.
The Royal Navy had built the fleet that defeated the Spanish Armada. We were
constructing wooden housing and using charcoal to fire blast furnaces. Our timber
stocks were so depleted that, Parliament passed laws restricting the use of
wood. We had little choice but to turn to coal to fire the pottery furnaces,
and to power the textile looms that were emerging in the Midlands. Necessity
was the mother of invention. We developed the steam engine to help us mine that
coal. That triggered the industrial revolution. As luck would have it,
this spark of industrialism coincided with a period when Britain was hitting
its imperialist stride. In this virtuous circle of confluent political and industrial
needs, industry grew at an incredible rate. The Empire expanded rapidly and
we created many inventions. Our imperial ambitions were fuelled by our industrial
might. And vice-versa. The Empire provided plentiful raw materials, and a captive
market. The growth in manufacturing capability was extreme. It is tempting to
suppose it was the result of adept management. Or the skilful exploitation of
our engineering know-how. That would be a big mistake. It happened
because the conditions were so right that it was almost impossible to fail.
It was nevertheless a period of great creativity. We have a lot to be proud
of. For 200 years we dominated invention, science and manufacturing. Like no
other country before or possibly since. From Newcomen, Watt and Savery's development
of the steam engine, in the early 18th century, to Fleming's invention in 1904
of the vacuum diode. Britain ruled each successive wave of technology. Behind
all these, are fascinating tales of human ingenuity and determination. But,
above all, these inventions came about in Britain, because the conditions at
the time were absolutely right. Crucially, few were the result of particularly
clever engineering
development. They were the products of good craftsmanship rather than scientific
investigation. It was more a culture of gifted amateurs, than dedicated professionals.
And it meant we repeatedly failed to capitalize on many of our best ideas. A
British curse that persists to this day. For example, we developed every major
innovation in the iron and steel making process. Yet our steel industry, failed
to adopt them with the same
gusto as its counterparts in France, Germany and America.We were soon left behind.
We lacked initiative. We had a ready supply of raw materials.
And we had an Empire on which to foist our goods. These were conditions that
bred complacency. And lo and behold, by the late 19th century our volume of
production had fallen behind America. To make matters worse, we were failing
to educate the next generation. On the eve of the First World War, Germany had
60,000 university students. We had just 9,000. German universities turned out
3,000 engineering graduates every year. In
England and Wales, only 350 students secured first and second class honours
in all branches of science, technology and mathematics - including
engineering. Our industrialization had boomed with the expansion of the Empire.
And so it retreated with the decline of our imperial power.
By the end of the second world war, we were in a sorry state. Having founded
reasonably good car, aerospace, textile and shipbuilding
industries, we seemed to give up. My theory is that by 1945 everyone was exhausted.
After two world wars and a depression, a desire for security was endemic in
society. We were encouraged to get a job that promised a safe future - accountancy,
law, medicine, the foreign office or some other part of the civil service. We
sought refuge in the comfort of pipes, nursery food, big fat armchairs in stuffy,
overheated rooms and low-risk jobs for life. We'd become lazy and we failed
to capitalize on our wartime inventions such as penicillin, radar and computers.
Meanwhile, grammar and public schools groomed us for university. We were encouraged
to become middle-class professionals and to avoid industry and manufacturing.
When I was at school, my teachers told me that if I failed my exams I'd end
up in a factory. They conjured up a ghastly Dickensian image of grime, repetitive
tasks, lousy working conditions and book-keeping on thick ledgers on high lecterns.
Well I proved them wrong. Somehow I passed most of my exams. And yet I still
ended up in a factory. In fact, I built one. And as a manufacturer, I've had
to get used to the brickbats that I heard
bandied as a child. The most prevalent of which was that manufacturing was exploitative.
Oh, how we liked to paint a picture of being "under the thumb of big business".
Even as a child, I never quite understood why anything to do with industry was
portrayed as a dark, evil thing. But if someone made money from 40,000 inherited
acres of prime farmland, or from retailing, then somehow it was morally acceptable.
And then we nationalized our major industries. In one fell swoop, we killed
entrepreneurship. As a result of all these attitudes and conditions, we failed
to benefit from the great, international, post-war, economic boom. While the
economies of other countries were expanding, ours was contracting. Much of it
was down to our dwindling manufacturing base. In 1950, we produced a quarter
of the world's exports; in 1970, just one tenth. By the mid 1980s our international
goods trade was in deficit. Fast forward to today. We rely on our service industries
to prop up our alarming trade deficit. And
this sorry situation, is often presented as the conclusive argument, that we
have tipped from a manufacturing economy to a service economy.
Time and time again, I'm told Britain can rely on service industries. "It
doesn't matter if we buy all our low-cost goods from abroad," I hear.
"We can rely on our service industry to finance it." It has become
a paradox of our age. The number of 'Made in...' labels in shops, is no longer
an accurate gauge of a country's economic output. So how can we continue to
generate wealth when we're making less and importing more? A commentator recently
gave an example. Buying a plastic model of Professor Dumbledore the Harry Potter
character - costs around £10. Doubtlessly it will be labeled 'made in China'.
But according to the commentator, the retail and wholesale margins, royalties,
design, advertising and promotion
will contribute £7 or £8 to Britain's GDP. Well I'm sorry to disillusion everyone
who believes this argument, but as a manufacturer who operates in 37 countries,
I know from experience that this isn't the case. The retailer's margin would
be tiny. And it might well be Toys R Us, Amazon.com or some other non-British
company. Most of the distribution costs will be spent shipping the toy to this
country. Advertising and promotion are likely to be co-ordinated in the manufacturer's
home country. And 10 per cent or more of the cost will go to Warner Brothers.
All money spent abroad.
And there are other reasons why the argument is short-sighted. First, we spend
much more on big, expensive engineered things than we spend
on cheap goods such as plastic toys. Things like: cars or aero planes, or the
glass and steel used to build skyscrapers in the City. And if you buy
something substantial, then the proportion of the total cost spent on distribution
and marketing, within Britain, is minuscule. But there is an even better argument
for supporting our manufacturing industries. Just imagine that a British company
was manufacturing the toys. Then, instead of scraping a few pennies off each
doll sold here, we would be recouping the revenues from every Dumbledore sold
anywhere in the world. But I am not arguing that we have to manufacture everything
in Britain for it to continue to generate wealth for us. What we need is companies
that make their money from manufacturing. Even if they do their assembly elsewhere.
Manufacturing companies and entrepreneurs need to have their ideas here. Do
the engineering here. Develop the technology here. Oversee the production from
here. Plan the marketing and organize the selling here. Then if they sell their
Dumbledores - or their cars or aero planes or televisions - anywhere in the
world, then the revenues return to this country. And the people doing those
engineering jobs are highly paid. More than the
people doing the retailing jobs that the commentator cited. But instead of appreciating
this simple fact, we have created a strange society. One in which economic growth
relies on us continuing to spend ever greater amounts of our money shopping.
Napoleon wasn't quite right. We're not a nation of shopkeepers, but shopaholics.
I'm as guilty as the next person. I like nothing more than a trip to the shops.
I often find myself lost and overwhelmed in DIY stores. But I am convinced that
our love of retailing is part of the reason for our lack of interest in engineering
and manufacturing. We say that we're heading into town for a bit of "retail
therapy." What we're really doing is going for some product therapy. But
the phrase 'retail therapy' reveals our true motives. We are as turned on by
the act of buying as by the goods we purchase. We have become divorced from
the producer. Just try it yourself. When you show off some thing you've bought,
I guarantee the first question will be 'Where did you get it?', not 'Who made
it?'. The inference is, that if you bought it somewhere expensive and
exclusive, then it must be good. The perception is that the shop makes the goods,
not the producer. The producer is eclipsed by the massive retailer. Yet making
money from retailing or the City is admired. While making it from manufacturing
is not. Clean money is okay, it seems. Dirty money isn't. 'Not bad for two years'
work,' said Philip Green, when he made £460m in two years from his investment
in BHS. The general reaction was good luck to him. Maybe it goes back to the
Florentines teaching us the business of trade. Trade, of course, predates manufacturing
and has always dominated it. But it's pretty pointless if we don't make anything
to trade. So China breathing down our necks. The only way we'll be able to sell
our products, is if they have better technology and are better designed. That
means investing in engineering, and engineers, to ensure we don't repeat the
mistakes of the past. What do we need to do to ensure we get manufacturing right
in the future? The first step is to address the shortcomings of our education
system. And to use it to change attitudes.Actually, it is one area of our culture
that has vastly improved its approach to engineering. We have a generation of
children who have studied Design and Technology at school. I'm also heartened
by the changes taking place on our university design courses. They have recognized
that styling, as a separate entity was an invention of the latter half of the
20th century. And that it was essentially about putting a tired product in new
clothes. Most art and design colleges are now moving from teaching industrial
design to teaching engineering design. It's not just a name. They are actually
teaching engineering. The Royal College of Art was in the vanguard when it devised
a joint-course with Imperial College. It draws on Imperial's engineering expertise
- something I did myself when I was at the RCA. And they have been followed
by the best design colleges around the country.
Brunel, Newcastle, Southbank, Glasgow, Dundee and Leicester are all changing.
Five years ago, students got away with turning out conceptual designs. Few of
them worked. They were entirely styling and marketing exercises.Nowadays, students
have to make breadboard prototypes that work. Then they think about the packaging
and styling. But there's more we could do at schools and universities. I believe
we force our children to specialize too early. By the time they are 14 or 15,
our children have been pigeonholed. They are
either scientists or artists. It limits their choices. And it doesn't create
the kind of rounded characters that make innovative, lateral thinkers. After
all, the Lunar Men, who made the discoveries that set the industrial revolution
in motion, were polymaths.
The arts and science divide, has done such damage to this country's prosperity.
Look at the countries where engineering is held in high esteem - France and
Germany. Most pupils continue with some science instruction right through school.
They are countries with a good vocational teaching tradition. We also need to
develop a culture of rewarding failure. For too long, we have valued effortless
brilliance, like the Oxford double first. Not the dogged determined slogger.
It has created a culture in which "having a strong work ethic" is
a term of insult. But the fact is, the B grade students are the most successful
in life. They make the best entrepreneurs. They have learned to persevere and
they're not scared of failure. Thomas Edison summed it up brilliantly: "invention
and success are one per cent inspiration, 99 per cent perspiration." Most
successful entrepreneurs have overcome several failures. If I had given up on
prototype 05126 I wouldn't be standing here tonight. It took one more prototype
to really make it work. All that taught me a huge amount. We need to encourage
children to be different at school. In subjects such as Design and Technology,
I think students should be marked by how many mistakes they make. It's what
they learn from those mistakes that's important. Not how quickly and neatly
they complete the task. We need to instill an ethos that learning should be
through experience and experiment, rather than by rote. Educating our children
to appreciate engineering is only the first step. The next is to change their
attitudes. At the moment, the arts are more important to us than science. or
engineering. Just look at the front page of this week's Sunday Times. Two articles.
On one side "an extra 125 million pounds for Theatreland." On the
other, "funds for sciences at universities to be cut." Since 1997,
we have closed 18 physics departments and 28 chemistry departments. As a result,
we now produce only 3,000 Physics graduates a
year. Compare that to an astonishing 15,000 psychologists! And it's going to
get worse. Yet more science departments are due to close. Again, long-term prosperity
is being sacrificed at the altar of short-term gain. A quick buck. Certainly
it's an attitude I encountered again and again when I was starting up.
And it brings me to the third step in my manifesto for manufacturing change.
We need to encourage manufacturing investors. And to make them think
long-term.
Twelve years ago, I was trudging from venture capitalist to merchant banker.
I was seeking funding to manufacture my vacuum cleaner. A delightful
American called Bob Peyton was also looking for money.
He wanted to expand his chain of pizza restaurants.
I wanted to build up something with a potential worldwide market. My
business would not offer a return for several years, whereas Bob was
promising a relatively quick buck. So guess who got the funding?
And it hasn't changed.
Banks and venture capitalists are not going to invest long-term unless we
give them an incentive.
To do that we need two things. Tax breaks on long term manufacturing
investment. And lower interest rates. Permanently.
As I explained in evidence to the Monetary Policy Committee, manufacturers
quite like inflation. It's interest rates and the exchange rate that bother
them. Inflation means our borrowings get smaller, faster. High interest
rates, on the other hand, hamper investment. And high exchange rates create
the double whammy of less revenue from exports and more competition from
cheaper imports.
So it seems to me utterly bizarre that we set a target rate for inflation.
And to achieve it, we try to use interest rates - a blunt instrument at the
best of times. It should be the other way round. We should set low targets
for Interest and Exchange Rates. That will encourage investment in
manufacturing and R&D.
At Dyson, we invest 12 per cent of our turnover in research and development.
It's a fortune by British standards. British companies invest a meagre 2.1
per cent of turnover in R&D, less than half the international average of
4.3
per cent.
Yet it's been shown that companies which invest in R&D, repeatedly
outperform the rest of the stock market. So there's a good reason for the
City to take a longer term view.
The Government already gives a small tax break for R&D. It needs to be
extended to cover not just innovation, but devising step by step
improvements to existing products and the consequent re-tooling. It's what
made Japanese products so successful.
But without support for on-going research, it is much more productive for
companies to invest in advertising. It offers a short-term sales gain but
provides no long term investment in our future.
The Government could take genuine steps to encourage R&D investment. Then
we
could turnaround one of the most depressing signs of our diminishing
inventiveness. We file fewer patents with each passing year.
And in terms of patent applications per capita - probably the best measure
of a nation's inventiveness - we are fast slipping down the league tables. A
few years ago, Britain was in seventh place, behind Luxembourg and only just
ahead of Monaco. I'd be tempted to ask you to name a famous Monegasque
inventor. But that would be to highlight our sorry state of affairs.
But it needn't be like this.
We can get it right.
All we need to do is give engineers a free hand.
We need to encourage more people to become engineers and scientists.
And to encourage manufacturers and financiers to invest in the future
through R&D.
We're already taking the right steps in our schools and universities. They
have turned their backs on shallow styling. They have realized that the
future belongs to people who make things that work better.
The cultural change has long been apparent in architecture. It has abandoned
the hollow styling obsession of post-modernism. The best architects now make
a feature of the technology that makes their designs possible.
And look. A bridge in Gateshead won the Sterling prize.
It shows that in the field of architecture, technology and engineering are
shaping the future.
Now we must do the same for the manufactured object.
We got it halfway right in the past. If we recognize our failings, we can do
better in the future. Manufacturing and engineering are about brains, not
brawn or looks. And the future belongs to those who use their brains BEST.
Rise up engineers!
09 December 2004