Eiffel Tower
The
Eiffel Tower
was built for the International Exhibition of Paris of 1889
commemorating the centenary of the French Revolution. The Prince of Wales,
later King Edward VII of England, opened the
tower. Of the 700 proposals submitted in a design competition,
Gustave Eiffel's was unanimously chosen.
However it was not accepted by all at first, and a petition of 300 names
- including those of Maupassant, Emile Zola, Charles Garnier (architect
of the Opéra Garnier), and Dumas the Younger - protested its construction. At 300 meters (320.75 m including
antenna), and 7,000 tons, it was the world's tallest building until
1930. Other statistics include:
- 2.5 million rivets
- 300 steel workers, and 2 years (1887-1889) to construct it.
- Sway of at most 12 cm in high winds.
- Height varies up to 15 cm depending on temperature.
- 15,000 iron pieces (excluding rivets). 40 tons of paint. 1652 steps to the top.
In 1889, Gustave Eiffel
began to fit the peak of the tower as an observation
station to measure the speed of wind. He also encouraged several scientific
experiments including Foucault's
giant pendulum, a mercury barometer and the first experiment of radio transmission.
In 1898, Eugene Ducretet at the Pantheon,
received signals from the tower.
After Gustave Eiffel experiments in the field
of meterology, he begun to look at the effects of wind and air resistance,
the science that would later be termed aerodynamics, which has become a
large part of both military and commercial aviation as well as rocket technology.
Gustave Eiffel imagined an automatic
device sliding along a cable that was stretched between the ground and the
second floor of the Eiffel Tower.
Material
The wrought iron
structure of the Eiffel Tower weighs 7,300 tonnes, while the entire
structure, including non-metal components, is approximately
10,000 tonnes. As a demonstration of the economy of design, if the 7,300
tonnes of the metal structure were melted down it would fill the
125-metre-square base to a depth of only 6 cm (2.36 in), assuming the
density of the metal to be 7.8 tonnes per cubic metre. Depending on the
ambient temperature, the top of the tower may shift away from the sun by
up to 18 cm (7.1 in) because of thermal expansion of the metal on the
side facing the sun.
Interior
Wind considerations
At the time the tower was built many people were shocked by its
daring shape. Eiffel was criticised for the design and accused of trying
to create something artistic, or inartistic according to the viewer,
without regard to engineering. Eiffel and his engineers, however, as
experienced bridge builders, understood the importance of wind forces
and knew that if they were going to build the tallest structure in the
world they had to be certain it would withstand the wind. In an
interview reported in the newspaper Le Temps, Eiffel said:
Now to what phenomenon did I give primary concern in designing the Tower? It was wind resistance.
Well then! I hold that the curvature of the monument's four outer
edges, which is as mathematical calculation dictated it should be
will give a great impression of strength and beauty, for it will reveal
to the eyes of the observer the boldness of the design as a whole.
Researchers have found that Eiffel used empirical and graphical methods
accounting for the effects of wind rather than a specific mathematical
formula. Careful examination of the tower shows a basically exponential
shape; actually two different exponentials, the lower section
overdesigned to ensure resistance to wind forces. Several mathematical
explanations have been proposed over the years for the success of the
design; the most recent is described as a nonlinear integral equation
based on counterbalancing the wind pressure on any point on the tower
with the tension between the construction elements at that point.As a demonstration of the tower's effectiveness in wind resistance, it sways only 6–7 cm (2–3 in) in the wind.
Maintenance
Maintenance of the tower includes applying 50 to 60 tonnes of paint every seven years to protect it from rust. The height of the Eiffel Tower varies by 15 cm due to temperature.
Economics
The American TV show Pricing the Priceless speculates that in 2011
the tower would cost about $480,000,000 to build, that the land under
the tower is worth $350,000,000, and that the scrap value of the tower
is worth $3,500,000. The TV show estimates the tower makes a profit of
about $29,000,000 per year, though it is unlikely that the Eiffel Tower
is managed so as to maximize profit.
It costs $5,300,000 to repaint the tower, which is done once every
seven years. The electric bill is $400,000 per year for 7.5 million
kilowatt-hours.
The Tokey Tower in Japan
is a very similar structure of very similar size. It was finished in
1958 at a final cost of ¥2.8 billion ($8.4 million in 1958).
Construction
Work
on the foundations started in January 1887. Those for the east
and south legs were straightforward, each leg resting on four 2 m
(6.6 ft) concrete slabs, one for each of the principal girders of each
leg but the other two, being closer to the river Seine were more
complicated: each slab needed two piles installed by using
compressed-air caissons 15 m (49 ft) long and 6 m (20 ft) in diameter
driven to a depth of 22 m (72 ft) to support the concrete slabs, which were 6 m (20 ft) thick. Each of these slabs supported a block built of limestone
each with an inclined top to bear a supporting shoe for the ironwork.
Each shoe was anchored into the stonework by a pair of bolts 10 cm
(4 in) in diameter and 7.5 m (25 ft) long. The foundations were complete
by 30 June and the erection of the ironwork began. The very visible
work on-site was complemented by the enormous amount of exacting
preparatory work that was entailed: the drawing office produced 1,700
general drawings and 3,629 detailed drawings of the 18,038 different
parts needed: the
The task of drawing the components was complicated by the complex
angles involved in the design and the degree of precision required: the
position of rivet holes was specified to within 0.1 mm (0.04 in) and
angles worked out to one second of arc.
The finished components, some already riveted together into
sub-assemblies, arrived on horse-drawn carts from the factory in the
nearby Parisian suburb of were first bolted together, the bolts being replaced by rivets as
construction progressed. No drilling or shaping was done on site: if any
part did not fit it was sent back to the factory for alteration. In all
there were 18,038 pieces of wrought iron using two and a half million
rivets.
At
first the legs were constructed as cantilivers but about halfway to the
first level construction was paused in order to construct a substantial
timber scaffold.
This caused a renewal of the concerns about the structural soundness of
the project, and senstional headlines such as "Eiffel Suicide!" and
"Gustave Eiffel has gone mad: he has been confined in an Asylum"
appeared in the popular press.
At this stage a small "creeper" crane was installed in each leg,
designed to move up the tower as construction progressed and making use
of the guides for the elevators
which were to be fitted in each leg. The critical stage of joining the
four legs at the first level was complete by March 1888. Although the
metalwork had been prepared with the utmost precision, provision had
been made to carry out small adjustments in order to precisly align the
legs: hydraulic jackwere fitted to the shoes at the base of each leg,
each capable of
exerting a force of 800 tonnes, and in addition the legs had been
intentionally constructed at a slightly steeper angle than necessary,
being supported by sand boxes on the scaffold.
No more than three hundred workers were employed on site, and because
Eiffel took safety precautions, including the use of movable stagings,
guard-rails and screens, only one man died during construction.
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