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Srinivasa Aiyangar Ramanujan (, 1887April 26 , 1920 ) was an Indian Mathematician and one of the greatest mathematical geniuses of the twentieth century. He had uncanny mathematical manipulative abilities, as judged by experts in his field. He excelled in the heuristic aspects of Number Theory and insight into Modular Function s. He also made significant contributions to the development of Partition Function s and summation formulas involving Constants such as π .

A Child Prodigy , he was largely Self-taught in mathematics and had compiled over 3,000 theorems between the year 1914 and 1918 in the University Of Cambridge . Often, his formulas were merely stated, without Proof , and were only later proven to be true. His results were highly original and unconventional, and have inspired a large amount of research and many mathematical papers, however some of his discoveries have been slow to enter the mathematical mainstream. Recently his formulae have started to be applied in the field of Crystallography , and other applications in Physics . The ''Ramanujan Journal'' was launched to publish work "in areas of mathematics influenced by Ramanujan".

A international feature film on Ramanujan's life is being made by an Indo-British collaboration, it will be co-directed by Stephen Fry and Dev Benegal {Link without Title} .


LIFE


Childhood and early life


Ramanujan was born in 1887 in , where he may have first encountered formal mathematics. At 11 he had mastered the mathematical knowledge of two lodgers at his home, both students at the Government College, and was lent books on advanced trigonometry by S. L. Loney which he mastered by age 13. His biographer reports that by 14 his true genius was beginning to become discernable. Not only did he achieve merit certificates and academic awards throughout his school years, he was also assisting the school in the logistics of assigning its 1200 students (each with their own needs) to its 35-odd teachers, completing mathematical exams in half the allotted time, and was showing familiarity with infinite series. His peers at the time commented later, "We, including teachers, rarely understood him" and "stood in respectful awe" of him. However, Ramanujan could not concentrate on other subjects and failed his high school exams.By age 17,he calculated Euler's constant to 15 decimals places.He began to study what he thought were a new class of numbers, although he had independently discovered the Bernoulli Numbers . At this time in his life, he was quite poor and was often near the point of starvation.


Adulthood in India

was taken before leaving to England in the year 1913 .
]]
After marriage, he began searching for work. With his packet of mathematical calculations, he travelled around the city of Madras (now Chennai) looking for a clerical position. He managed finally to get a job as an accountant in the General's Office at Madras (now Chennai) . Ramanujan desired to focus completely on mathematics, and was advised by an Englishman to contact scholars in Cambridge. He doggedly solicited support from influential Indian individuals and published several papers in Indian mathematical journals, but was unsuccessful in his attempts to foster sponsorship. It was at this point that Sir Ashutosh Mukherjee tried to bolster his cause.

In late 1912 and early 1913 Ramanujan sent letters and examples of his theorems to three , E. W. Hobson , and G. H. Hardy . Only Hardy, a Fellow of Trinity College to whom Ramanujan wrote in January 1913, noticed the genius demonstrated by the theorems.

Upon reading the initial unsolicited missive by an unknown and untrained Indian mathematician, Hardy and his colleague J.E. Littlewood commented that, “not one {Link without Title} could have been set in the most advanced mathematical examination in the world.” Although Hardy was one of the pre-eminent mathematicians of his day and an expert in several of the fields Ramanujan was writing about, he commented, "many of them defeated me completely; I had never seen anything in the least like them before."


Life in England

After some initial skepticism, Hardy replied with comments, requesting proofs for some of the discoveries, and began to make plans to bring Ramanujan to England. As an orthodox Brahmin , Ramanujan consulted the Astrological data for his journey, because of religious concerns that he would lose his Caste by traveling to foreign shores. However, Ramanujan's mother had a dream in which the family Goddess told her not to stand in the way of her son's travel, so he made plans accordingly, although he took pains to keep a proper Brahmin lifestyle as far as he could.

(extreme right), with others at Trinity College , Cambridge ]]

Hardy said of Ramanujan's formulae, some of which he could not initially understand, "a single look at them is enough to show that they could only be written down by a mathematician of the highest class. They must be true, for if they were not true, no one would have had the imagination to invent them." Hardy stated in an interview by Paul Erdős that his own greatest contribution to mathematics was the discovery of Ramanujan, and compared Ramanujan to the mathematical giants Euler and Jacobi . Ramanujan was later appointed a Fellow of Trinity, and a Fellow of the Royal Society (FRS).


Illness and return to India

Plagued by health problems all of his life, living in a country far from home, and obsessively involved with his studies, Ramanujan's health worsened in England, perhaps exacerbated by Stress , and by the scarcity of Vegetarian Food during the First World War . He was diagnosed with Tuberculosis (Henderson, 1996) and a severe vitamin deficiency, although a 1994 analysis of Ramanujan's medical records and symptoms by Dr. D.A.B Young concluded that it was much more likely he had hepatic Amoebiasis , a parasitic infection of the liver. This is also supported by the fact that Ramanujan had spent time in Madras , a coastal city where the disease was widespread. It was a difficult disease to diagnose, but once diagnosed was readily curable (Berndt, 1998). He returned to India in 1919 and died soon after in Kumbakonam , his final gift to the world being the discovery of 'mock Theta Functions' . His wife, S. Janaki Ammal, lived outside Chennai (formerly Madras) until her death in 1994. Janaki had been nine when they were married, a fairly common practice in India at the time. (Henderson, 1996)


Spiritual life


Ramanujan lived as a , an Atheist , believed him to be essentially agnostic as far as metaphysical matters were concerned. It is also said that Ramanujan, who struggled for a long time with severe illness which tended to impede his mathematical output, said in frustrated agony, while in his death throes, that he did not believe in God.

Hardy reported a statement of Ramanujan's to the effect that all religions are equally correct. Kanigel's biography states that Ramanujan would probably not have shown Hardy his religious side in any case; however Kanigel paints a generally negative picture of Hardy.

Ramanujan credited his acumen to his family Goddess , Namagiri , and looked to her for inspiration in his work. He often said, "An equation for me has no meaning, unless it represents a thought of God."


MATHEMATICAL ACHIEVEMENTS

In mathematics, there is a distinction between having an insight and having a proof. Ramanujan's talent suggested a plethora of formulae that could then be investigated in depth later. As a byproduct, new directions of research were opened up. Examples of these formulae were intriguing infinite Series for π , one of which is given by,

: rac{1}{\pi} = rac{2\sqrt{2}}{9801} \sum^\infty_{k=0} rac{(4k)!(1103+26390k)}{(k!)^4 396^{4k}}

which is related to the fact that,

: e^{\pi \sqrt{163}} = 640320^3 + 743.99999999999925...

Ramanujan's series for π converges extraordinarily rapidly (exponentially) and forms the basis for the fastest algorithms currently used to calculate π.

His intuition had led him to derive some unknown Identities . One example is

: \left 1+2\sum_{n=1}^\infty rac{\cos(n heta)}{\cosh(n\pi)} ight ^{-2} + \left [1+2\sum_{n=1}^\infty rac{\cosh(n heta)}{\cosh(n\pi)} ight ]^{-2} = rac {2 \Gamma^4 \left ( rac{3}{4} ight )}{\pi}

for all heta, where \Gamma(z) is the Gamma Function . Equating coefficients of heta^0, heta^4, and heta^8 gives some amazing identities for the hyperbolic secant.


Theorems and discoveries


These include both Ramanujan's own discoveries, and those developed or proven in collaboration with Hardy.



It is said his discoveries were unusually rich; that is, in many of them there was far more than initially met the eye.


The Ramanujan conjecture and its role


Although there are numerous statements that could bear the name ''Ramanujan conjecture'', there is one in particular that was very influential on later work. That Ramanujan Conjecture is an assertion on the size of the Tau Function , which has as generating function the discriminant modular form Δ(''q'') , a typical Cusp Form in the theory of Modular Forms . It was finally proved in 1973, as a consequence of Deligne's proof of the Weil Conjectures ; the reduction step is complicated.


Ramanujan's notebooks


While he was still in India, Ramanujan recorded many results in three notebooks of Loose Leaf paper. Results were written up, without their derivations. This is probably the origin of the misconception that Ramanujan was unable to prove his results and simply thought the final result up directly. Berndt, in his review of the notebooks and Ramanujan's work felt that Ramanujan most certainly was able to make the proofs of most of his results, but chose not to.

This style of working may have been for several reasons. Since paper was very expensive, Ramanujan would do most of his work and perhaps his proofs on 's ''Synopsis of Pure and Applied Mathematics'', used by Carr in his tutoring. It summarised several thousand results, stating them without proofs. Finally, it is possible that Ramanujan considered his workings to be for his personal interest alone; and therefore only recorded the results. (Berndt, 1998)

The first notebook was 351 pages with 16 somewhat organized chapters and some unorganized material. The second notebook had 256 pages in 21 chapters and 100 unorganized pages, with the third notebook containing 33 unorganized pages. The results in his notebooks inspired numerous papers by later mathematicians trying to prove what he had found. Hardy himself created papers exploring material from Ramanujan's work as did G. N. Watson , B. M. Wilson, and Bruce Berndt. (Berndt, 1998)


EPISTLE CORRESPONDENCES


Madras , 16th January 1913
:" Dear Sir,
:I beg to introduce myself to you as a clerk in the Accounts Department of the Port Trust Office at Madras on a salary of only 20 Pound per annum. I am now about 23 years of age. I have had no university education but I have undergone the ordinary school course.After leaving the school I have been employing the spare time at my disposal to work at Mathematics. I have not trodden through the conventional regular course which is followed in a university course, but I am striking out a new path for myself. I have made a special investigation of divergent series in general and the results I get are termed by the local mathematicians as 'startling'.... Being poor, if you are convinced that there is anything of value I would like to have my theorms published. I have not given the actual investigations nor the expressions that I get but I have indicated to the lines on which I proceed. Being inexperienced I would very highly value any advice you give me. Requesting to be excused for the trouble I give you".- Srinivasa Ramanujan

8 February 1913
:I was exceedingly interested by your letter and by the theorems which you state. You will however understand that, before I can judge properly of the value of what you have done, it is essential that I should see proofs of some of your assertions. Your results seem to me to fall into roughly three classes:
:(1) there are a number of results that are already known, or easily deducible from known theorems;
:(2) there are results which, so far as I know, are new and interesting, but interesting rather from their curiosity and apparent difficulty than their importance;
:(3) there are results which appear to be new and important... - Hardy

27 February 1913
:"...... I have found a friend in you who views my labours sympathetically. This is already some encouragement to me to proceed.... I find in many a place in your letter rigorous proofs are required and you ask me to communicate the methods of proof...... I told the sum of an infinite no of terms of the series 1+2+3+4+......=(-1/12) under my theory. If I tell you this you will at once point out to me the lunatic asylum as my goal...... What I tell you is this. Verify the results I give and if they agree with you results...... you should at least grant that there may be some truths in my fundamental basis.......To preserve my brains I want food and this is now my first consideration. Any sympathetic letter from you will be helpful to me here to get a scholarship either from the University or from Government....."-Ramanujan

17 April 1913
:".....I am a little pained to see what you have written.... I am not in the least apprehensive of my method being utilized by others. On the contrary my method has been in my possession for the last eight years and I have not found anyone to appreciate the method. As I wrote in my last letter I have found a sympathetic friend in you and I am willing to place unreservedly in you hands what little I have. It was on account of the novelty of the method I have used that I am a little diffident even now to communicate my own way of arriving at the expressions I have already given......."-Ramanujan

University Of Madras 12th January 1920
:"I am extremely sorry for not writing you a single letter up to now. ...... I discovered very interesting functions recently which I call 'Mock \Theta- functions'. Unlike the 'False \Theta- function' (studied partially by Prof.Rogers in his interesting paper) they enter into mathematics as beautifully as the ordinary \Theta-functions. I am sending you with this letter some examples......"-Ramanujan


HARDY'S QUOTES


Hardy wrote of Ramanujan:
:"The limitations of his knowledge were as startling as its profundity. Here was a man who could work out Modular Equation s and theorems... to orders unheard of, whose mastery of Continued Fraction s was... beyond that of any mathematician in the world, who had found for himself the functional equation of the Zeta Function and the dominant terms of many of the most famous problems in the analytic theory of numbers; and yet he had never heard of a doubly periodic function or of Cauchy's Theorem , and had indeed but the vaguest idea of what a function of a Complex Variable was..."

:"I still say to myself when I am depressed, and find myself forced to listen to pompous and tiresome people, 'Well, I have done one thing you could never have done, and that is to have collaborated with both Littlewood and Ramanujan on something like equal terms.'"

:"In his favourite topics, like Infinite Series and Continued Fractions , he had no equal this century. His insight into algebraic formulae, often (and unusually) brought about by considering numerical examples, was truly amazing. But in analytic Number Theory , a subject he is often associated with, I do not believe he actually knew that much. He certainly contributed little of significance that was not known already. And in a subject that relied so much on proof, a subject where Intuition had a bad habit of coming unstuck, he produced much that was false."

:"I remember once going to see Ramanujan when he was lying ill at Putney. I had ridden in taxi cab Number 1729 and remarked that the number seemed to me rather a dull one, and that I hoped it was not an unfavorable omen. 'No,' he replied, 'it is a very interesting number; it is the smallest number expressible as the sum of two cubes in two different ways.'"

:"As for his place in the world of Mathematics, we quote Bruce C Berndt: ' Paul Erdos has passed on to us Hardy 's personal ratings of mathematicians. Suppose that we rate mathematicians on the basis of pure talent on a scale from 0 to 100, Hardy gave himself a score of 25, J.E. Littlewood 30, Hilbert 80 and Ramanujan 100.'"

:"... {Link without Title} he greatest Mathematicians made their most significant discoveries when they were very young. Galois who died at 18, Abel at 29, and Riemann at 40, had actually made their mark in history. So the real tragedy of Ramanujan was not his early death at the age of 32, but that in his most formative years, he did not receive proper training, and so a significant part of his work was rediscovery..."


RECOGNITION


Ramanujan's home state of Tamil Nadu celebrates 22nd December (Ramanujan's birthday) as 'State IT Day', memorializing both the man, and his achievements, as a native of Tamil Nadu .

A stamp pictured Ramanujan was released by the Government Of India on commemoration for his achivements in the field of Number Theory in the year 1962 on 75th anniversary of Ramanujan's birth.

A Prize for young mathematicians from developing countries has been created in the name of Srinivasa Ramanujan by the International Centre For Theoretical Physics (ICTP), in cooperation with IMU, who nominate members of the Prize Committee.

During the year 1987 Ramanujan Centennial , the printed form of Ramanujan's Lost Notebook by Springer-Narosa was released by the late Prime Minister Rajiv Gandhi , who presented the first copy to Janaki Ammal Ramanujan, the late widow of Ramanujan, and the second copy to Professor Andrews in recognition of his contributions in the field of Number Theory .





PROJECTED FILM


A Ramanujan Biopic will begin shooting next year (2007) in Tamil Nadu state and Cambridge. British director Stephen Fry and India's Dev Benegal are the key people behind this project. {Link without Title}
Another film based on the book ''The Man Who Knew Infinity: A Life of the Genius Ramanujan'' by Robert Kanigel is being made by Edward Pressman and Matthew Brown .
{Link without Title}


CULTURAL REFERENCES



SEE ALSO




FURTHER READING

  • ''Collected Papers of Srinivasa Ramanujan'' ISBN 0821820761

  • ''The Man Who Knew Infinity: A Life of the Genius Ramanujan'' by Robert Kanigel ISBN 0671750615



REFERENCES

  • 1

  • ''An overview of Ramanujan's notebooks'' by Bruce C. Berndt, in ''Charlemagne and His Heritage: 1200 Years of Civilization and Science in Europe'', Volume 2: Mathematical Arts, P. L. Butzer, H. Th. Jongen, and W. Oberschelp, editors, Brepols, Turnhout, 1998, pp. 119-146, ( 22 pg. pdf file )

  • ''Modern Mathematicians'', Harry Henderson, Facts on File Inc., 1996



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