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'''Max Noether''' (24 September 1844 – 13 December 1921) was a German [[Mathematician (nonfiction)|mathematician]] who worked on algebraic geometry and the theory of algebraic functions. He has been called "one of the finest mathematicians of the nineteenth century". He was the father of mathematician [[Emmy Noether (nonfiction)|Emmy Noether]].
[[File:Max Noether (between 1870 and 1875).jpg|thumb|Max Noether (between 1870 and 1875).]]'''Max Noether''' (24 September 1844 – 13 December 1921) was a German [[Mathematician (nonfiction)|mathematician]] who worked on [[Algebraic geometry (nonfiction)|algebraic geometry]] and the theory of algebraic functions. He has been called "one of the finest mathematicians of the nineteenth century".  
 
He was the father of mathematician [[Emmy Noether (nonfiction)|Emmy Noether]].


== Biography ==
== Biography ==


Max Noether was born in Mannheim in 1844, to a Jewish family of wealthy wholesale hardware dealers. His grandfather, Elias Samuel, had started the business in Bruchsal in 1797. In 1809 the Grand Duchy of Baden established a "Tolerance Edict", which assigned a hereditary surname to the male head of every Jewish family which did not already possess one. Thus the Samuels became the Noether family, and as part of this Christianization of names, their son Hertz (Max's father) became Hermann. Max was the third of five children Hermann had with his wife Amalia Würzburger.[2]
Max Noether was born in Mannheim in 1844, to a Jewish family of wealthy wholesale hardware dealers. His grandfather, Elias Samuel, had started the business in Bruchsal in 1797. In 1809 the Grand Duchy of Baden established a "Tolerance Edict", which assigned a hereditary surname to the male head of every Jewish family which did not already possess one. Thus the Samuels became the Noether family, and as part of this Christianization of names, their son Hertz (Max's father) became Hermann. Max was the third of five children Hermann had with his wife Amalia Würzburger.


At 14, Max contracted polio and was afflicted by its effects for the rest of his life. Through self-study, he learned advanced mathematics and entered the University of Heidelberg in 1865. He served on the faculty there for several years, then moved to the University of Erlangen in 1888. While there, he helped to found the field of algebraic geometry.[3]
At 14, Max contracted polio and was afflicted by its effects for the rest of his life. Through self-study, he learned advanced mathematics and entered the University of Heidelberg in 1865. He served on the faculty there for several years, then moved to the University of Erlangen in 1888. While there, he helped to found the field of algebraic geometry.


In 1880 he married Ida Amalia Kaufmann, the daughter of another wealthy Jewish merchant family. Two years later they had their first child, named Amalia ("Emmy") after her mother. Emmy Noether went on to become a central figure in abstract algebra. In 1883 they had a son named Alfred, who later studied chemistry before dying in 1918. Their third child, Fritz, was born in 1884. Like Emmy, Fritz Noether also found prominence as a mathematician. Little is known about their fourth child, Gustav Robert, born in 1889. He suffered from continual illness and died in 1928.[4]
In 1880 he married Ida Amalia Kaufmann, the daughter of another wealthy Jewish merchant family. Two years later they had their first child, named Amalia ("Emmy") after her mother. Emmy Noether went on to become a central figure in abstract algebra. In 1883 they had a son named Alfred, who later studied chemistry before dying in 1918. Their third child, Fritz, was born in 1884. Like Emmy, Fritz Noether also found prominence as a mathematician. Little is known about their fourth child, Gustav Robert, born in 1889. He suffered from continual illness and died in 1928.


Noether served as an Ordinarius (full professor) at Erlangen for many years, and died there on 13 December 1921.
Noether served as an Ordinarius (full professor) at Erlangen for many years, and died there on 13 December 1921.


Work on algebraic geometry
== Work on algebraic geometry ==
Brill and Max Noether developed alternative proofs using algebraic methods for much of Riemann's work on Riemann surfaces. Brill–Noether theory went further by estimating the dimension of the space of maps of given degree d from an algebraic curve to projective space Pn. In birational geometry, Noether introduced the fundamental technique of blowing up in order to prove resolution of singularities for plane curves.
 
[[Alexander von Brill (nonfiction)|Alexander von Brill]] and Max Noether developed alternative proofs using algebraic methods for much of Riemann's work on Riemann surfaces. Brill–Noether theory went further by estimating the dimension of the space of maps of given degree d from an algebraic curve to projective space Pn. In birational geometry, Noether introduced the fundamental technique of blowing up in order to prove resolution of singularities for plane curves.


Noether made major contributions to the theory of algebraic surfaces. Noether's formula is the first case of the Riemann-Roch theorem for surfaces. The Noether inequality is one of the main restrictions on the possible discrete invariants of a surface. The Noether-Lefschetz theorem (proved by Lefschetz) says that the Picard group of a very general surface of degree at least 4 in P3 is generated by the restriction of the line bundle O(1).
Noether made major contributions to the theory of algebraic surfaces. Noether's formula is the first case of the Riemann-Roch theorem for surfaces. The Noether inequality is one of the main restrictions on the possible discrete invariants of a surface. The Noether-Lefschetz theorem (proved by Lefschetz) says that the Picard group of a very general surface of degree at least 4 in P3 is generated by the restriction of the line bundle O(1).


Noether and Castelnuovo showed that the Cremona group of birational automorphisms of the complex projective plane is generated by the "quadratic transformation"
Noether and [[Guido Castelnuovo (nonfiction)|Guido Castelnuovo]] showed that the Cremona group of birational automorphisms of the complex projective plane is generated by the "quadratic transformation"


[x,y,z] ↦ [1/x, 1/y, 1/z]
[x,y,z] ↦ [1/x, 1/y, 1/z]
together with the group PGL(3,C) of automorphisms of P2. Even today, no explicit generators are known for the group of birational automorphisms of P3.
together with the group PGL(3,C) of automorphisms of P2. Even today, no explicit generators are known for the group of birational automorphisms of P3.


See also
== See also ==
Noether's theorem on rationality for surfaces
 
Max Noether's theorem – a list of several theorems
* Noether's theorem on rationality for surfaces
Notes
* Max Noether's theorem – a list of several theorems
Lederman, p. 69.
 
Dick, pp. 4–7.
== Notes ==
Lederman, pp. 69–71.
* Lederman, p. 69.
Dick, pp. 9–45.
* Dick, pp. 4–7.
References
* Lederman, pp. 69–71.
Dick, Auguste. Emmy Noether: 1882–1935. Boston: Birkhäuser, 1981. ISBN 3-7643-3019-8.
* Dick, pp. 9–45.
Lederman, Leon M. and Christopher T. Hill. Symmetry and the Beautiful Universe. Amherst: Prometheus Books, 2004. ISBN 1-59102-242-8.
 
Macaulay, Francis S. Max Noether. In: Proceedings of the London Mathematical Society. - 2. ser., vol. 21. - London, 1923. - p. XXXVII-XLII. (online)
== References ==
External links
 
O'Connor, John J.; Robertson, Edmund F., "Max Noether", MacTutor History of Mathematics archive, University of St Andrews.
* Dick, Auguste. Emmy Noether: 1882–1935. Boston: Birkhäuser, 1981. ISBN 3-7643-3019-8.
Gabriele Dörflinger: Max Noether. In: Historia Mathematica Heidelbergensis.
* Lederman, Leon M. and Christopher T. Hill. Symmetry and the Beautiful Universe. Amherst: Prometheus Books, 2004. ISBN 1-59102-242-8.
* Macaulay, Francis S. Max Noether. In: Proceedings of the London Mathematical Society. - 2. ser., vol. 21. - London, 1923. - p. XXXVII-XLII. (online)
 
== External links ==
 
* O'Connor, John J.; Robertson, Edmund F., "Max Noether", MacTutor History of Mathematics archive, University of St Andrews.
* Gabriele Dörflinger: Max Noether. In: ''Historia Mathematica Heidelbergens''is.
 
== In the News ==
 
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</gallery>
 
== Fiction cross-reference ==
 
* [[Crimes against mathematical constants]]
* [[Gnomon algorithm]]
* [[Mathematician]]
* [[Mathematics]]
 
== Nonfiction cross-reference ==
 
* [[Guido Castelnuovo (nonfiction)]] - Guido Castelnuovo (14 August 1865 – 27 April 1952) was an Italian mathematician. He is best known for his contributions to the field of algebraic geometry, though his contributions to the study of statistics and probability theory are also significant.
* [[Mathematicians (nonfiction)]]
* [[Mathematics (nonfiction)]]
* [[Emmy Noether (nonfiction)]] - Daughter
* [[Alexander von Brill (nonfiction) - Alexander Wilhelm von Brill (20 September 1842 – 18 June 1935)[1]:17 was a German mathematician.
 
External links:
 
* [https://en.wikipedia.org/wiki/Max_Noether Max Noether] @ Wikipedia


[[Emmy Noether (nonfiction)]]
[[Category:Nonfiction (nonfiction)]]
[[Category:Mathematicians (nonfiction)]]
[[Category:People (nonfiction)]]

Latest revision as of 07:44, 13 December 2019

Max Noether (between 1870 and 1875).

Max Noether (24 September 1844 – 13 December 1921) was a German mathematician who worked on algebraic geometry and the theory of algebraic functions. He has been called "one of the finest mathematicians of the nineteenth century".

He was the father of mathematician Emmy Noether.

Biography

Max Noether was born in Mannheim in 1844, to a Jewish family of wealthy wholesale hardware dealers. His grandfather, Elias Samuel, had started the business in Bruchsal in 1797. In 1809 the Grand Duchy of Baden established a "Tolerance Edict", which assigned a hereditary surname to the male head of every Jewish family which did not already possess one. Thus the Samuels became the Noether family, and as part of this Christianization of names, their son Hertz (Max's father) became Hermann. Max was the third of five children Hermann had with his wife Amalia Würzburger.

At 14, Max contracted polio and was afflicted by its effects for the rest of his life. Through self-study, he learned advanced mathematics and entered the University of Heidelberg in 1865. He served on the faculty there for several years, then moved to the University of Erlangen in 1888. While there, he helped to found the field of algebraic geometry.

In 1880 he married Ida Amalia Kaufmann, the daughter of another wealthy Jewish merchant family. Two years later they had their first child, named Amalia ("Emmy") after her mother. Emmy Noether went on to become a central figure in abstract algebra. In 1883 they had a son named Alfred, who later studied chemistry before dying in 1918. Their third child, Fritz, was born in 1884. Like Emmy, Fritz Noether also found prominence as a mathematician. Little is known about their fourth child, Gustav Robert, born in 1889. He suffered from continual illness and died in 1928.

Noether served as an Ordinarius (full professor) at Erlangen for many years, and died there on 13 December 1921.

Work on algebraic geometry

Alexander von Brill and Max Noether developed alternative proofs using algebraic methods for much of Riemann's work on Riemann surfaces. Brill–Noether theory went further by estimating the dimension of the space of maps of given degree d from an algebraic curve to projective space Pn. In birational geometry, Noether introduced the fundamental technique of blowing up in order to prove resolution of singularities for plane curves.

Noether made major contributions to the theory of algebraic surfaces. Noether's formula is the first case of the Riemann-Roch theorem for surfaces. The Noether inequality is one of the main restrictions on the possible discrete invariants of a surface. The Noether-Lefschetz theorem (proved by Lefschetz) says that the Picard group of a very general surface of degree at least 4 in P3 is generated by the restriction of the line bundle O(1).

Noether and Guido Castelnuovo showed that the Cremona group of birational automorphisms of the complex projective plane is generated by the "quadratic transformation"

[x,y,z] ↦ [1/x, 1/y, 1/z]

together with the group PGL(3,C) of automorphisms of P2. Even today, no explicit generators are known for the group of birational automorphisms of P3.

See also

  • Noether's theorem on rationality for surfaces
  • Max Noether's theorem – a list of several theorems

Notes

  • Lederman, p. 69.
  • Dick, pp. 4–7.
  • Lederman, pp. 69–71.
  • Dick, pp. 9–45.

References

  • Dick, Auguste. Emmy Noether: 1882–1935. Boston: Birkhäuser, 1981. ISBN 3-7643-3019-8.
  • Lederman, Leon M. and Christopher T. Hill. Symmetry and the Beautiful Universe. Amherst: Prometheus Books, 2004. ISBN 1-59102-242-8.
  • Macaulay, Francis S. Max Noether. In: Proceedings of the London Mathematical Society. - 2. ser., vol. 21. - London, 1923. - p. XXXVII-XLII. (online)

External links

  • O'Connor, John J.; Robertson, Edmund F., "Max Noether", MacTutor History of Mathematics archive, University of St Andrews.
  • Gabriele Dörflinger: Max Noether. In: Historia Mathematica Heidelbergensis.

In the News

Fiction cross-reference

Nonfiction cross-reference

External links: