Born: 17 July 1831 in Paris, France
Died: 11 Dec 1906 in Paris, France
Amédée Mannheim entered the École Polytechnique in Paris in 1848
at the age of 17. Two years later he went to Metz where he attended the
École d'Application.
Although slide rules existed before Mannheim's
time, invented by Oughtred and Gunter and others, it was Mannheim who
standardised the modern version of the slide rule which was in common
use until pocket calculators took over a few years ago. It was while he
was a student at Metz that the ideas for this slide rule came to
Mannheim.
I [EFR] purchased a slide rule of the Mannheim
type when I was at school and my parents paid 5 pounds for it. That
would be the equivalent of perhaps 100 pounds today so the calculator
has not only given us a better calculating tool but also a much cheaper
one. However, I still have the slide rule and treasure it, while I have
thrown out all my early calculators.
After graduating from the École d'Application
in Metz, Mannheim became an officer of the French artillery. After
several years in the military, Mannheim was appointed to the École
Polytechnique in Paris, while continuing his army career. His first
appointment at the École Polytechnique was as a répétiteur in 1859,
then in 1863 he was appointed as an examiner. In the following year
Mannheim was appointed as Professor of Descriptive Geometry at the
École Polytechnique. Koppelman writes in [1]:-
He was a dedicated and popular teacher, strongly devoted to the
École Polytechnique, and was one of the founders of the Société Amicale
des Anciens Elèves de l'École.
Mannheim retired from his army post in 1890, having attained the rank
of colonel in the engineering corps. He continued teaching at the École
Polytechnique until he retired in 1901 at the age of 70.
He made numerous contributions to geometry and
for his outstanding contributions to the subject he was awarded the
Poncelet Prize of the Académie des Sciences in 1872. He studied the
polar reciprocal transformation introduced by Chasles and applied his
results to kinetic geometry. Mannheim's own definition of kinetic
geometry considered it to be the study of motion of a figure without
reference to any forces, time or other properties external to the
figure. Mannheim's work on the exact synthesis of mechanisms is studied
in [6].
He also studied surfaces, in particular Fresnel's wave surfaces. The paper [5] studies this topic of his work in detail.
Article by:J J O'Connor and E F Robertson
May 2000
Reference: MacTutor History of Mathematics
[http://www-history.mcs.st-andrews.ac.uk/Biographies/Mannheim.html]
