Sophie Germain

From Wikipedia, the free encyclopedia

Marie-Sophie Germain (April 1, 1776 – June 27, 1831) was a French mathematician who made important contributions to the fields of differential geometry and number theory. Germain was born to a middle-class merchant family in Paris, France and at age 13 she read about Archimedes and decided that she wanted to become a mathematician.

Contents 1 Biography 1.1 Mentorship with Lagrange 1.2 Correspondence with Gauss 1.3 Work on elastic surfaces 1.4 Contributions to number theory 1.5 Later work 2 Mathematical work 3 References 4 External links

[edit] Biography

[edit] Mentorship with Lagrange

Germain was particularly interested in Joseph-Louis Lagrange's teachings and submitted papers and assignments under the pseudonym "Monsieur Le Blanc", a former student of Lagrange's. Lagrange was so impressed by the paper that he asked to meet Le Blanc, and Germain was forced to reveal her identity to him. Lagrange apparently considered her a talented mathematician and became her mentor.

[edit] Correspondence with Gauss

In 1804 she began corresponding with Carl Friedrich Gauss, again using her pseudonym, after reading his famous Disquisitiones Arithmeticae (1801). He eventually learned her true identity in 1806, when Napoleon Bonaparte was invading Prussia and Gauss's birthplace, Brunswick. Fearful that Gauss would meet a fate like that of Archimedes, Germain requested that General Pernety, a friend of hers, to personally ensure Gauss's safety. The general explained to Gauss that Germain had asked that he be protected, which confused Gauss since he had never heard of her. She then wrote to him admitting she was female, to which he responded:

But how to describe to you my admiration and astonishment at seeing my esteemed correspondent Monsieur Le Blanc metamorphose himself into this illustrious personage who gives such a brilliant example of what I would find it difficult to believe. A taste for the abstract sciences in general and above all the mysteries of numbers is excessively rare: one is not astonished at it: the enchanting charms of this sublime science reveal only to those who have the courage to go deeply into it. But when a person of the sex which, according to our customs and prejudices, must encounter infinitely more difficulties than men to familiarize herself with these thorny researches, succeeds nevertheless in surmounting these obstacles and penetrating the most obscure parts of them, then without doubt she must have the noblest courage, quite extraordinary talents and superior genius. Indeed nothing could prove to me in so flattering and less equivocal manner that the attractions of this science, which has enriched my life with so many joys, are not chimerical, the predilection with which you have honored it.

However, in 1808 Gauss was appointed professor of astronomy at the University of Göttingen. His interest shifted to applied mathematics, and he stopped replying to her letters.

[edit] Work on elastic surfaces

In 1811 Germain entered the French Academy of Sciences' contest to explain the underlying mathematical law of a German mathematician, attempting to explain Ernst Chladni's study on vibrations of elastic surfaces, in which she originated the concept of mean curvature. After failing twice she finally won in 1816, thus bringing her into the ranks of great mathematicians. She became the first female to attend sessions at the French Academy of Sciences—excepting the wives of other members. She never married.

[edit] Contributions to number theory

One of Germain's major contributions to number theory was the following theorem: if x, y, and z are integers, and x⁵ + y⁵ = z⁵ then either x, y, or z has to be divisible by five. This proof, which she first described in a letter to Gauss, became quite significant as it restricted the possible solutions of Fermat's last theorem. One significant contribution is the concept of the Sophie Germain prime, which is a prime number p where 2p+1 is also prime. One of her most famous identities; commonly known as Sophie Germain's Identity, states that for any two numbers <math>x</math> and <math>y</math>:

<math>x^4+4y^4=(x^2+2y^2+2xy)(x^2+2y^2-2xy).</math>

[edit] Later work

Later in life, her central contribution to mathematics was in the field of elasticity theory.

With prompting from Gauss, in 1830 the University of Göttingen agreed to award Germain an honorary degree, but before she received it she died of breast cancer on June 27, 1831. A crater on Venus was named in her honor.

[edit] Mathematical work

Germain's mathematical work was primarily in the following fields:

• Elasticity theory, especially the concept of mean curvature
• Number theory, especially the concept of a Sophie Germain prime

[edit] References

• M. W. Gray, Sophie Germain in Louise S. Grinstein (Editor), Paul J. Campbell (Editor) (1987). Women of Mathematics: A Bio-Bibliographic Sourcebook. Greenwood Press, New York. ISBN 978-0313248498. 
• M. Thomas a Kempis (1939). "An Appreciation of Sophie Germain". National Mathematics Magazine 14 (2): 81-90. JSTOR

[edit] External links

• O'Connor, John J; Edmund F. Robertson "Sophie Germain". MacTutor History of Mathematics archive.  
• Sophie Germain at the Mathematics Genealogy Projectde:Sophie Germain

es:Sophie Germain fr:Sophie Germain ko:소피 제르맹 hr:Sophie Germain it:Sophie Germain he:סופי ז'רמן hu:Sophie Germain nl:Marie-Sophie Germain ja:ソフィ・ジェルマン pl:Sophie Germain pt:Sophie Germain ru:Жермен, Софи sv:Sophie Germain zh:索菲·熱爾曼