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Petr Sergeevich Novikov  
  
238   02:48 مساءً   date: 26-9-2017
Author : S Adian
Book or Source : Biography in Dictionary of Scientific Biography
Page and Part : ...


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Date: 18-9-2017 148
Date: 26-9-2017 59
Date: 14-9-2017 168

Born: 15 August 1901 in Moscow, Russia

Died: 9 January 1975 in Moscow, Russia


Petr Sergeevich Novikov was the son of Sergei Novikov, a Moscow merchant, and Alexandra Novikov. He attended school in Moscow then, in September 1919, he entered the Faculty of Physics and Mathematics at Moscow University. However, even before Novikov entered university, the Russian nation had been plunged into civil war. The Red Army had been formed in February 1918 with Trotsky as its leader. The Red Army opposed the White Army formed of anticommunists led by former imperial officers. In the spring of 1920, with the civil war still raging, Novikov joined the Red Army. He served with this army until July 1922 when he returned to Moscow University to complete his studies.

He graduated in 1925 then, remaining at Moscow University, he undertook research under Luzin's supervision. Novikov graduated in 1929 and then taught at the Moscow Chemical Technology Institute until he joined the Department of Real Function Theory at the Steklov Institute in 1934. He was awarded his doctorate in 1935 and, in 1939, he was promoted to full professor. Novikov married Lyudmila Vsevolodovna Keldysh in 1935. They had five children; one of their sons Sergei Novikov was awarded a Fields Medal in 1970.

Novikov headed the Department of Analysis at Moscow State Teachers Training Institute from 1944. In 1957 Novikov set up a new department at the Steklov Institute, namely the Department of Mathematical Logic, and he was appointed as the first head of that department. He held the two posts, one at the Moscow State Teachers Training Institute and the other at the Steklov Institute, until he retired in 1972 and 1973 respectively.

After early work on set theory, influenced by Luzin and his school, he began to publish results in mathematical physics from 1938. Perhaps his most fundamental result in this area was that [1]:-

... any two solids having the same constant density must coincide if they both are star-shaped relative to a common point and have the same external gravitational potential.

He began to study mathematical logic and the theory of algorithms just before 1940. He studied consistency of arithmetic, proving that formal arithmetic with recursive definitions is consistent. He also examined the consistency of certain propositions in Gödel's system of axiomatic set theory.

Novikov showed, in 1952, that the word problem for groups is insoluble. The word problem asks the fundamental question of whether there is an algorithm to determine whether a word in a group given by a presentation consisting of a finite number of generators and relations is trivial. The problem was first posed by Dehn in 1912 and Novikov was able to show that no such algorithm exists in general. Research into questions of this type is still of major importance in combinatorial group theory. Novikov was awarded the Lenin Prize in 1957 for this outstanding piece of work. In fact Boone published another proof of this result in 1957, the same year that Novikov received his prize.

The word problem was not the only problem of major importance in combinatorial group theory which Novikov solved. Jointly with Adian he showed that the problem of the finiteness of periodic groups proposed by Burnside in 1902 had a negative solution. Although in 1959 Novikov announced that for every n > 71 there exists a finitely generated infinite group with every element of order dividing n, his proof was not quite correct.

Let us state the problem more precisely. The Burnside problem asks whether, for fixed d and n, the group B(dn) having d generators and in which every element x satisfies xn = 1, is finite. Novikov's argument of 1959 was correct in general terms but the details were not, and in putting the arguments right it was found that one required larger values of n. In 1968 Novikov and Adian jointly published a proof B(dn) is infinite for every d > 1 and every n > 4380. They continued to work on improving the result and, in 1979, published a book The Burnside problem and identities in groups in which they improved the result to n > 664.

There is still a large gap, however, between those values of n for which B(dn) is known to be finite and those for which it is known to be infinite. It is really easy to show the B(d, 2) is finite. Burnside himself showed that B(d, 3) is finite, Sanov showed B(d, 4) is finite and Marshall Hall showed B(d, 6) is finite. However, it is still an open question as to whether B(2, 5) is finite.


 

  1. S Adian, Biography in Dictionary of Scientific Biography (New York 1970-1990). 
    http://www.encyclopedia.com/doc/1G2-2830905272.html

Articles:

  1. A A Lyapunov, Petr Sergeevich Novikov (for his 50th birthday) (Russian), Uspekhi matematicheskikh nauk 7 (2) (48) (1952), 193-196.
  2. Petr Sergeevich Novikov (Russian), Izv. Akad. Nauk SSSR Ser. Mat. 39 (2) (1975), 469-470.
  3. Petr Sergeevich Novikov (on the occasion of his seventieth birthday) (Russian), Uspekhi matematicheskikh nauk 26 (5) (161) (1971), 231-241.
  4. On the sixtieth birthday of Petr Sergeevich Novikov (Russian), Izv. Akad. Nauk SSSR Ser. Mat. 25 (1961), 629-634.

 




الجبر أحد الفروع الرئيسية في الرياضيات، حيث إن التمكن من الرياضيات يعتمد على الفهم السليم للجبر. ويستخدم المهندسون والعلماء الجبر يومياً، وتعول المشاريع التجارية والصناعية على الجبر لحل الكثير من المعضلات التي تتعرض لها. ونظراً لأهمية الجبر في الحياة العصرية فإنه يدرّس في المدارس والجامعات في جميع أنحاء العالم. ويُعجب الكثير من الدارسين للجبر بقدرته وفائدته الكبيرتين، إذ باستخدام الجبر يمكن للمرء أن يحل كثيرًا من المسائل التي يتعذر حلها باستخدام الحساب فقط.وجاء اسمه من كتاب عالم الرياضيات والفلك والرحالة محمد بن موسى الخورازمي.


يعتبر علم المثلثات Trigonometry علماً عربياً ، فرياضيو العرب فضلوا علم المثلثات عن علم الفلك كأنهما علمين متداخلين ، ونظموه تنظيماً فيه لكثير من الدقة ، وقد كان اليونان يستعملون وتر CORDE ضعف القوسي قياس الزوايا ، فاستعاض رياضيو العرب عن الوتر بالجيب SINUS فأنت هذه الاستعاضة إلى تسهيل كثير من الاعمال الرياضية.

تعتبر المعادلات التفاضلية خير وسيلة لوصف معظم المـسائل الهندسـية والرياضـية والعلمية على حد سواء، إذ يتضح ذلك جليا في وصف عمليات انتقال الحرارة، جريان الموائـع، الحركة الموجية، الدوائر الإلكترونية فضلاً عن استخدامها في مسائل الهياكل الإنشائية والوصف الرياضي للتفاعلات الكيميائية.
ففي في الرياضيات, يطلق اسم المعادلات التفاضلية على المعادلات التي تحوي مشتقات و تفاضلات لبعض الدوال الرياضية و تظهر فيها بشكل متغيرات المعادلة . و يكون الهدف من حل هذه المعادلات هو إيجاد هذه الدوال الرياضية التي تحقق مشتقات هذه المعادلات.