Everything Everywhere Daily: History, Science, Geography & More - Ramanujan
Episode Date: November 8, 2020In 1913, a young man from the city of Madras in British India sent a letter to one of the world’s preeminent mathematicians, G.H. Hardy, in Cambridge Univerisity in England. The young man had no for...mal education in advanced mathematics, yet that letter would end up changing the landscape of mathematics for the rest of the 20th century. Learn more about the legendary Srinivasa Ramanujan, one of the world’s most gifted natural mathematicians, on this episode of Everything Everywhere Daily. Learn more about your ad choices. Visit megaphone.fm/adchoices
Transcript
Discussion (0)
In 1913, a young man from the city of Madras in British India sent a letter to one of the world's preeminent mathematicians, G.H. Hardy in Cambridge University in England.
The young man had no formal education in advanced mathematics.
Yet that letter would end up changing the landscape of mathematics for the rest of the 20th century.
Learn more about the legendary Srinivasa Ramanujan, one of the world's most gifted natural mathematicians, on this episode of Everything Everywhere Daily.
Fear is the virus is trending on TikTok.
Vaccines are poison.
Then your yoga teacher says that sex traffic children are being sacrificed by satanic liberals.
But it's all okay.
The Great Awakening is coming.
What is happening?
Every week on Conspiratuality Podcast, we explore the fever dreams that suck friends, family, and wellness gurus down the right-wing cult spiral in a search for salvation.
On December 22, 1887, Srinavas Ramanujan was born into a Brahman family in what is today the southern Indian state of Tamil Nadu.
His father was a clerk who spent much of his time working to support his family.
His mother, who was a devout Hindu, brought him up and passed along her religious devotion to her son.
While he didn't enjoy his first attempts at school, he eventually excelled.
At the age of 10, he had passed his primary school exams with the highest scores in the district.
He was advanced to secondary school where it soon became evident.
that he was a mathematical prodigy.
By the age of 11, he had exhausted the two university students
who were renting a room from his family.
He was given a book on trigonometry, which he taught himself,
and had fully completed by the age of 13.
When he was 16, he was given a copy of
a synopsis of elementary results in pure and applied mathematics
by British mathematician GS Carr,
which was a collection of over 5,000 mathematical theorems.
It was with this book that Ramanujan came into his own.
He began developing his own theorems and coming up with his own unique solutions to problems.
In 1904, he graduated high school and was given a special prize for excellence in mathematics.
He easily got a scholarship to attend a nearby college.
As brilliant as he was, however, he had absolutely no interest in anything other than mathematics.
He failed his other subjects as he had no interest in them, and eventually his scholarship was revoked.
He attended university again only to suffer the same problem.
extreme interest in mathematics and zero interest in anything else.
Even in mathematics, he only bothered with the questions that interest him
and didn't bother with the things he found easy.
After failing to get a degree, he lived in poverty, near starving,
working on mathematics independently.
In 1910, he began to make contacts in the Indian mathematical world.
Some of them, including the head of the Indian Mathematical Society,
didn't believe that the work was his own.
He eventually contacted V. Ramoswati Ayer, who was the founder
of the Indian Mathematical Society. He also worked at the Department of Revenue where
Romanoogin wanted to get a job. He looked at Romanoogin's work and said, quote,
I was struck by the extraordinary mathematical results contained in the notebooks. I had no
mind to smother his genius by an appointment in the lowest rungs of the revenue department, unquote.
Eventually, the mathematicians in India came to terms with his brilliance and originality,
and he was given a job as a clerk where he earned a decent salary. From here,
Ramanujan, with the help of other Indian mathematicians, tried to get the attention of the mathematicians in Britain.
Papers showing his theorems and ideas were sent to many high-profile mathematicians, but none of them took any interest.
Either they felt he was too undisciplined, or they ignored what was sent to them entirely.
However, there was one letter sent in January of 1913 to one G.H. Hardy of Cambridge University.
Many notable mathematicians and scientists will often get letters from cranks with crackpot ideas,
so it wasn't too surprising that Ramanujan didn't get attention at first.
His letter to Hardy began, quote,
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 pounds 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 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, unquote.
From here, Ramanujan proceeded to outline many of his theorems over the course of the next 12 pages.
Hardy was blown away.
To be fair, some of Ramanujan's ideas were not original and had been discovered before.
but the vast majority were groundbreaking.
Hardy later said in a reply letter,
Certainly the most remarkable letter I have ever received,
its author a mathematician of the highest quality,
and a man of altogether exceptional originality and power.
One of the problems was that Ramanujan was mostly self-taught.
Mathematics is based upon formal proofs,
and Ramanujan's work wasn't done that way.
It was mostly intuitive, just springing fully formed from his mind.
Hardy wanted Ramanujan to come to English,
England's study, but his parents provided resistance. Eventually they relented in a 1914
Romanoogaan headed to England. He spent five years there with Hardy and other mathematicians,
working on proving his theorems and publishing them to the outside world. His relationship with
Hardy was perhaps the most famous between any two mathematicians in history. They couldn't have
been more unalight. Romanoogian was deeply spiritual, whereas Hardy was an atheist. Hardy was classically
trained, whereas Romanoogian was highly intuitive. Hardy was English.
and Ramanujan was Indian.
Over time, the entire mathematical community
came to recognize his genius.
Cambridge awarded him a Bachelor of Arts by Research degree,
which was the precursor to the Ph.D.
In 1917, he was elected to the London Mathematical Society.
In 1918, he was elected a fellow of the Royal Society,
only the second Indian ever to receive the honor,
and at the age of 31, he was one of the youngest fellows
in the history of the Royal Society.
He was also the first Indian, elected to be a fellow
of Trinity College. To give you a small glimpse of his brilliance, once when he was sick,
Hardy came to visit him, and he wrote later on, quote, I remember once going to see him when he was
ill at Putney. I had ridden in a 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's a very
interesting number. It's the smallest number expressible as the sum of two cubes in two different ways,
unquote. This offhand comment made while he was sick about a single number, 1,729, is today known as the hearty Romanoogian number, and there is now an entire classification of numbers called taxi cab numbers that are the sum of two cubes in two different ways, all from an off-handed comment while he was sick in bed.
Romanoogian's theorems and conjectures spread over a wide range of mathematics, which is still having an impact today. His work on elliptic
curves was a big part of the basis for proving Fermat's last theorem. He also had a staggering
impact on areas such as elliptic functions, continued fractions, and infinite series. He found an
infinite series to approximate the value of pie, and he cracked the problem of partitions, which
was long thought to be impossible. Romanoogin suffered from illness even before he came to England,
and the cold, damp climate of the country didn't help things. As a strict vegetarian, he found it
difficult to find fresh vegetables during World War I, and he suffered from tuberculosis,
and various nutrient deficiencies.
In 1919, after the conclusion of the war,
he returned to India and died in 1920 at the age of 32.
The legacy of Ramanujan continued well after his death.
The majority of his conjectures that he postulated
have since been proven true.
In 1976, a lost notebook of work which he completed
during the last year of his life was found,
and it was likened to finding Beethoven's Tenth Symphony.
His birthday, December 22nd,
is now National Mathematics Day in India.
The Ramanujan IT zone is a special economic zone created in his hometown of Chennai, India.
He has appeared on postage stamps, and his story was documented in the 2015 film,
The Man Who Knew Infinity, starring Dev Patel and Jeremy Irons.
After Ramanujan's death, Hardy ranked the mathematicians of his time on a scale of 1 to 100.
He placed himself at 25, his colleague J.E. Littlewood, at 30,
the great German mathematician David Hilbert at 80,
and Ramanujan at a perfect 100.
Executive producer of Everything Everywhere Daily is James McAlla.
Please remember to support the show over at patreon.com
where you can get exclusive merchandise
and to leave a review on Apple Podcasts.
Leave a five-star review to have your review read online.