Instead of taking Europe and its countries, we could illustrate the four colour theorem with Germany and its regions. This can be found at MathePrisma (in German). There you can also colour some other maps on your own and develop strategies to get the right colouring fast.
This poster is one within a series of three illustrating famous mathematical problems and the way mathematical thinking works. The general idea is to give the broader public an idea about what mathematics is really about (fighting the common misunderstanding that mathematics is calculation and numbers in the first place) and to trace some of the history of mathematics. The two other posters are: "the bridges of Königsberg" and "primes".
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Königsberg (today: Kaliningrad) lies close to the baltic
sea. Formerly a city of Eastern Prussia, it is now part of Russia. The
18th century philosopher Immanuel Kant is certainly the most prominent
citizen of Königsberg. The mathematical problem known as the "bridges
of Königsberg" is said to have been a popular riddle in 18th century
Königsberg.
The challenge is to find out whether or not there is a way to walk over all seven bridges exactly once. By itself, this problem is indeed easy to understand and it could be solved, in principle, by systematically trying all possibilities. However, mathematics is more interested in understanding how the structure of the underlying problem determines whether such a way exists or not. We are therefore interested in an easy way to answer the question for all imaginable town maps with an arbitrary arrangement of rivers, land parts and connecting bridges. The text of the poster gives this general answer. It was first formulated by the mathematician Leonhard Euler (1707-1783). His approach is regarded as giving birth to modern graph theory, a branch of mathematics which has become increasingly important as a means of modelling networks, dependencies in production processes, logistic processes etc.
An animated, interactive treatment of the bridges problem with more details and a biography of Euler can be found at MathePrisma (in German).
This poster is one within a series of three illustrating famous mathematical problems and the way mathematical thinking works. The general idea is to give the broader public an idea about what mathematics is really about (fighting the common misunderstanding that mathematics is calculation and numbers in the first place) and to trace some of the history of mathematics. The two other posters are: "the 4 colour problem" and "primes".
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The proof of the fact that there are infinitely many primes is attributed to Euclid (3th century BC). Many other conjectures about prime numbers are not yet proven today: the prime twin conjecture (see poster), the Goldbach conjecture (every even number is a sum of two primes), the square numbers conjecture (there is at least one prime between two consecutive square numbers) and many more. Consult MathePrisma (in German) for other nice conjectures and Eratosthenes' sieve as a strategie for getting all primes up to some threshold.
This poster is one within a series of three illustrating famous mathematical problems and the way mathematical thinking works. The general idea is to give the broader public an idea about what mathematics is really about (fighting the common misunderstanding that mathematics is calculation and numbers in the first place) and to trace some of the history of mathematics. The two other posters are: "the four colour problem" and "the bridges of Königsberg".
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Car manufacturers are ardent users of supercomputers. "Virtual"
computer simulations more and more replace costly and time consuming
"real" tests. To this purpose, engineers develop virtual prototypes of
cars and then simulate the dynamics and statics of the cars on a computer.
These simulations require the formulation of a complete mathematical model
of the virtual car and its interaction with the road, the air etc. as a
system of partial differential equations. These equations must then be
solved on high performance computers using appropriate numerical algorithms.
Virtual crash tests are certainly amongst the most spectacular applications of this simulation technology.
This poster is one within a series of two advertising Mathematics pretty much the same way industrial companies work out their public relations campaigns. Their goal is to foster the public understanding that Mathematics plays a key role in current high tech. The other poster is "computerized tomography".
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Computerized tomography has revolutionarized medical diagnosis.
As opposed to "old fashioned" X-raying, which is just taking photographs
using X-rays instead of light, computerized tomography relies crucially
on Mathematics in order to reconstruct images from the data taken up by
the sensors moving around the body in the scanning process. Computerized
tomography images are much neater and deliver more detailed information
than X-ray photographs. Moreover, computerized tomography also allows
to reconstruct 3-dimensional (instead of flat) images.
This poster is one within a series of two advertising Mathematics pretty much the same way industrial companies work out their public relations campaigns. Their goal is to foster the public understanding that Mathematics plays a key role in current high tech. The other poster is "crash test".
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