Srinivasa
Ramanujan is best known for his contributions in the field of mathematics,
namely in number theory.
Basic
Introduction.
Srinivasa
Ramanujan was born in southern India in 1887. After demonstrating an intuitive
grasp of mathematics at a young age, he began to develop his own theories and
in 1911 published his first paper in India. Two years later Ramanujan began a
correspondence with British mathematician G. H. Hardy that resulted in a
five-year-long mentor ship for Ramanujan at Cambridge, where he published
numerous papers on his work and received a B.S. for research. His early work
focused on infinite series and integrals, which extended into the remainder of
his career. After contracting tuberculosis, Ramanujan returned to India, where
he died in 1920 at 32 years of age.
Intuition
detail he did…
Srinivasa
Ramanujan was born on December 22, 1887, in Erode, India, a small village in
the southern part of the country. Shortly after this birth, his family moved to
Kumbakonam, where his father worked as a clerk in a cloth shop. Ramanujan
attended the local grammar school and high school, and early on demonstrated an
affinity for mathematics.
When
at age 15 he obtained an out-of-date book called A Synopsis of Elementary
Results in Pure and Applied Mathematics, Ramanujan set about feverishly and
obsessively studying its thousands of theorems before moving on to formulate
many of his own. At the end of high school, the strength of his schoolwork was
such that he obtained a scholarship to the Government College in Kumbakonam.
A
Blessing and a Curse
But
Ramanujan’s greatest asset proved also to be his Achilles heel. He lost his
scholarship to both the Government College and later at the University of
Madras because his devotion to math caused him to let his other courses fall by
the wayside. With little in the way of prospects, in 1909 he sought government
unemployment benefits.
Yet
despite these setbacks, Ramanujan continued to make strides in his mathematical
work, and in 1911 published a 17-page paper on Bernoulli numbers in the Journal
of the Indian Mathematical Society. Seeking the help of members of the society,
in 1912 Ramanujan was able to secure a low-level post as a shipping clerk with
the Madras Port Trust, where he was able to make a living while building a
reputation for himself as a gifted mathematician.
Cambridge…A
Stepping Stone.
Around
this time, Ramanujan had become aware of the work of British mathematician G.
H. Hardy — who himself had been something of a young genius — with whom he
began a correspondence in 1913 and shared some of his work. After initially
thinking his letters a hoax, Hardy became convinced of Ramanujan’s brilliance
and was able to secure him both a research scholarship at the University of
Madras as well as a grant from Cambridge.
The
following year, Hardy convinced Ramanujan to come study with him at Cambridge.
During their subsequent five-year mentor ship, Hardy provided the formal
framework in which Ramanujan’s innate grasp of numbers could thrive, with
Ramanujan publishing upwards of 20 papers on his own and more in collaboration
with Hardy. Ramanujan was awarded a bachelor of sciences for research from
Cambridge in 1916 and in 1918 became a member of the Royal Society of London.
Doing
the Math...like magician of maths.
"[Ramanujan]
made many momentous contributions to mathematics especially number theory,"
states George E. Andrews, an Evan Pugh Professor of Mathematics at Pennsylvania
State University. "Much of his work was done jointly with his benefactor
and mentor, G. H. Hardy. Together they began the powerful "circle
method" to provide an exact formula for p(n), the number of integer
partitions of n. (e.g. p(5)=7 where the seven partitions are 5, 4+1, 3+2,
3+1+1, 2+2+1, 2+1+1+1, 1+1+1+1+1). The circle method has played a major role in
subsequent developments in analytic number theory. Ramanujan also discovered
and proved that 5 always divides p(5n+4), 7 always divides p(7n+5) and 11
always divides p(11n+6). This discovery led to extensive advances in the theory
of modular forms." Bruce
C. Berndt, Professor of Mathematics at the University of Illinois at
Urbana-Champaign, adds that: "the theory of modular forms is where
Ramanujan's ideas have been most influential. In the last year of his life,
Ramanujan devoted much of his failing energy to a new kind of function called
mock theta functions. Although after many years we can prove the claims that
Ramanujan made, we are far from understanding how Ramanujan thought about them,
and much work needs to be done. They also have many applications. For example,
they have applications to the theory of black holes in physics."
But
years of hard work, a growing sense of isolation and exposure to the cold, wet
English climate soon took their toll on Ramanujan and in 1917 he contracted
tuberculosis. After a brief period of recovery, his health worsened and in 1919
he returned to India.
The
Man Who Knew Infinity….a movie based on Ramanujan Life.
Srinivasa
Ramanujan died of his illness on April 26, 1920, at the age of 32. And even on
his deathbed had been consumed by math, writing down a group of theorems that
he said had come to him in a dream. These and many of his earlier theorems are
so complex that the full scope of Ramanujan’s legacy has yet to be completely
revealed and his work remains the focus of much mathematical research. His
collected papers were published by Cambridge University Press in 1927. Of
Ramanujan's published papers — 37 in total — professor Bruce C. Berndt reveals
that "a huge portion of his work was left behind in three notebooks and a
'lost' notebook. These notebooks contain approximately 4000 claims, all without
proofs. Most of these claims have now been proved, and like his published work,
continue to inspire modern-day mathematics."
A
biography of Ramanujan titled The Man Who Knew Infinity was published in 1991
and a movie of the same name starring Dev Patel as Ramanujan and Jeremy Irons
as Hardy, premiered in September 2015 at the Toronto Film Festival.
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