Ramanujan’s contribution to continued fractions In letters from an “unknown Hindu clerk”, G. H. Hardy, at that time (1913) Cayley Lecturer in Mathematics and Fellow of the Royal Society, received the

Dec 06, 2012 · The result is a formula for mock modular forms that may prove useful to physicists who study black holes. The work, which Ono recently presented at the Ramanujan 125 conference at the University of Florida, also solves one of the greatest puzzles left behind by the enigmatic Indian genius.

Apr 20, 2016 · The world will soon remember the renowned Indian mathematician Srinivasa Ramanujan once again, as a biopic on his life, named The Man Who Knew Infinity, is set to release this April. Ramanujan, who lived a short but very productive life, continues to be an inspiration for mathematicians across the ... Apr 22, 2016 · The starting point for this video is the famous letter that led to the discovery of self-taught mathematical genius Srinivasa Ramanujan in 1913 (Ramanujan is the subject of the movie "The man who ... Sep 10, 2019 · Srinivasa Ramanujan was a mathematical genius who made numerous contributions in the field, namely in number theory. The importance of his research continues to be studied and inspires ... Oct 20, 2009 · On the number of representations of certain quadratic forms and a formula for the Ramanujan Tau function Ramakrishnan, B., Sahu, Brundaban, and Singh, Anup Kumar, Functiones et Approximatio Commentarii Mathematici, 2018; Ramanujan: A tale of two evaluations Manzoli, Donald J., Rocky Mountain Journal of Mathematics, 2016 Srinivasa Ramanujan (1887-1920) was an Indian mathematician who made great and original contributions to many mathematical fields, including complex analysis, number theory, infinite series, and continued fractions. He was "discovered" by G. H. Hardy and J. E. Littlewood, two world-class mathematicians at Cambridge, and enjoyed an extremely ...

Srinivasa Ramanujan, (born December 22, 1887, Erode, India—died April 26, 1920, Kumbakonam), Indian mathematician whose contributions to the theory of numbers include pioneering discoveries of the properties of the partition function. Ramanujan made many beautiful and elegant discoveries in his short life of 32 years, and one of them that has attracted the attention of several mathematicians over the years is his intriguing formula for ζ (2 n + 1). Apr 27, 2016 · Ramanujan moved to Madras (now Chennai), tried different colleges, had medical problems, and continued his independent math research. In 1909, when he was 21, his mother arranged (in keeping with customs of the time) for him to marry a then-10-year-old girl named Janaki, who started living with him a couple of years later. Nov 07, 2012 · Mathematical proof reveals magic of Ramanujan's genius. ... Though Ono and colleagues have now constructed a formula to calculate the exact difference between the two types of modular form for ...