Srinivasa Ramanujan was a self-taught mathematical prodigy who made significant contributions to the analytical theory of numbers, as well as elliptic functions, continued fractions, and infinite series. He was born in India in 1887 and is considered one of the most influential mathematicians in the world with an estimated IQ of 185. However, his life was brief, and he died at the age of 32 in 1920. In this blog post, we will explore how Ramanujan died.
In the spring of 1917, Ramanujan became acutely ill, and he was diagnosed with gastric ulcer. This could have been a recurrence of intestinal amoebiasis, which he had suffered from previously. It is believed that the amoebiasis had returned, this time in the transverse colon. This type of amoebiasis can give rise to symptoms that closely resemble thse of gastric ulcer, but without dysentery.
Despite his illness, Ramanujan continued to work on his mathematics. However, his health deteriorated, and he was forced to return to India in 1919. By this time, he was suffering from malnutrition, in addition to his other health problems.
Ramanujan’s condition continued to worsen, and he died on April 26, 1920, at the age of 32. The exact cause of his death is not known, but it is believed to be a combination of his various health problems, including his gastric ulcer and malnutrition.
Despite his short life, Ramanujan made significant contributions to the field of mathematics. His work has inspired generations of mathematicians, and his legacy continues to this day. He is considered a true genius, without peer since Leonhard Euler and Carl Jacobi.
Srinivasa Ramanujan died at the age of 32 due to a combination of health problems, including gastric ulcer and malnutrition. His contributions to mathematics continue to be celebrated to this day, and his legacy will undoubtedly inspire future generations of mathematicians.
The Cause of Death of Srinivasa Ramanujan
The death of Srinivasa Ramanujan, the famous Indian mathematician, occurred in 1920. The primary reason for his untimely demise was tuberculosis. He had contracted this disease in 1917 whle he was in England, pursuing his mathematical research. However, he was able to recover from the illness to some extent, and he returned to India in 1919.
Unfortunately, his health continued to deteriorate, and he eventually succumbed to the disease in April 1920 at the young age of 32. Ramanujan’s death was a significant loss to the world of mathematics, as he was regarded as a brilliant genius by many mathematicians. Despite his short life, his contributions to the field were immense, and his legacy continues to inspire mathematicians to this day.
Source: nbcnews.com
Ramanujan’s IQ
Srinivasa Ramanujan, born in India in 1887, was a renowned mathematician who made significant contributions to the analytical theory of numbers, elliptic functions, continued fractions, and infinite series. He is widely regarded as one of the most influential mathematicians in the world.
Ramanujan’s intelligence was exceptional, and he had an estimated IQ of 185. This score places him in the top 0.1% of the world’s population in terms of intelligence. The intelligence quotient is a measure of cognitive ability that is determined by a standardized test.
Ramanujan’s exceptional mathematical abilities were evident at an early age. Despite having little formal education, he was able to develop complex mathematical theories and formulas that have had a lasting impact on the field of mathematics.
Srinivasa Ramanujan had an estimated IQ of 185, which is a testament to his exceptional intelligence and his contributions to the field of mathematics.
Ramanujan’s Disease
Ramanujan, the famous Indian mathematician, was diagnosed with gastric ulcer in the spring of 1917. It is important to note that this diagnosis was made based on his symptoms, which closely resembled those of gastric ulcer, but without dysentery. It is possibe that this condition was a recurrence of intestinal amoebiasis, which can affect the transverse colon and cause symptoms similar to those of gastric ulcer.
Intestinal amoebiasis is an infection caused by the parasite Entamoeba histolytica. It is typically transmitted through contaminated food or water and can cause symptoms such as abdominal pain, diarrhea, and weight loss. In some cases, the infection can lead to the formation of ulcers in the intestines, which may cause symptoms similar to those of gastric ulcer.
It is important to note that Ramanujan’s exact medical history is not well documented, and therefore, it is not possible to say with certainty what caused his gastric ulcer or whether it was related to intestinal amoebiasis. However, based on the available information, it is a possibility that should be considered.
Ramanujan was diagnosed with gastric ulcer, which may have been related to a recurrence of intestinal amoebiasis, a parasitic infection that can cause similar symptoms.
The Tragic Death of Srinivasa Ramanujan at Age 32
Srinivasa Ramanujan, a self-taught mathematical genius, died at the young age of 32 due to a combination of factors. Ramanujan had been suffering from various illnesses throughout his life, including tuberculosis, which had a significant impact on his health. However, the primary cause of his death was malnutrition, which was a result of his poor diet and living conditions.
Ramanujan was living in poverty in London when he fell ill with tuberculosis. He was unable to afford proper medical care and was often too weak to work. His financial situation also meant that he had to live in cramped and unsanitary conditions, which furthr contributed to his poor health.
Despite his illness and poor living conditions, Ramanujan continued to work on his mathematical research. His notebooks, which contained some of his most groundbreaking discoveries, were filled with complex formulas and equations that he had developed entirely on his own.
In the end, Ramanujan’s incredible intellect was not enough to save him from the harsh realities of poverty and illness. His death was a tragic loss for the world of mathematics, and it serves as a reminder of the importance of providing adequate support and resources for young scholars and innovators.
Ramanujan died at the age of 32 due to a combination of illness and malnutrition, which were exacerbated by his poor living conditions and lack of access to proper medical care.
Ramanujan’s Number of Failed Attempts
According to Robert Kanigel’s biography, The Man Who Knew Infinity, Ramanujan failed the Intermediate examinations four times. Despite his repeated attempts, he was unable to pass these exams. This information suggests that Ramanujan faced significant academic challenges during his early years. It also highlights the perseverance and determination that he displayed in pursuing his passion for mathematics, despite these setbacks.
The Significance of 1729 as the ‘Ramanujan Number’
1729 is known as the Ramanujan number because of an incident that occurred in 1917. At that time, the renowned mathematician G. H. Hardy visited his friend and colleague, Srinivasa Ramanujan, who was in a hospital in London. During their conversation, Hardy mentioned that he had taken a cab with the number 1729 and remarked that it was rather a dull number.
To this, Ramanujan replied, “No, Hardy! It is a very interesting number. It is the smallest number expressible as the sum of two cubes in two different ways.”
This unexpected response from Ramanujan surprised Hardy and sparked his interest in the number. Hardy later wrote abut this incident in his book “A Mathematician’s Apology”, where he praised Ramanujan’s genius and remarked that “1729 was a number of the kind which one spontaneously expects to be uninteresting, but which one nevertheless encounters occasionally in the course of one’s work.”
Since then, 1729 has been known as the Ramanujan-Hardy number or the Taxi Cab number, and it has become famous in the world of mathematics. The number’s significance lies in its unique property of being the smallest number that can be expressed as the sum of two cubes in two different ways. This property has been studied extensively in number theory, and 1729 has been used as an example in many mathematical proofs and problems.
The Possibility of Having an IQ of 400
It is a common misconception that anyone has an IQ score of 400. However, this is not true. In fact, the highest IQ score ever recorded belongs to Marilyn vos Savant, an American author and columnist who gained fame for her intelligence and was listed in the Guinness Book of World Records for having the highest IQ in the world. Her IQ score was recorded to be 228, which is considered to be exceptionally high.
It is important to note that IQ scores are calculated based on a standardized test that measures a person’s cognitive abilities in comparison to the general population. The average IQ score is set at 100, and scores aove 130 are considered to be above average. Scores above 160 are considered to be in the genius range.
While it is not possible to have an IQ score of 400, it is important to recognize that intelligence is not simply measured by a number. Intelligence comes in many forms and can be demonstrated through a variety of skills and abilities. It is also important to recognize that intelligence is not fixed and can be developed and improved through education, experience, and practice.
While there is no person with an IQ score of 400, it is important to recognize that intelligence is a complex and multifaceted trait that cannot be reduced to a single number.
The Possibility of Someone Having a 200 IQ
Nadia Camukova, born in Moscow in 1976, is reported to have an IQ of 200, whch is considered exceptionally high. The Brain Research Institute in Moscow confirmed her IQ score and declared her to have the highest IQ in the world.
An IQ score of 200 puts Nadia Camukova in the category of “profoundly gifted” individuals, which means that she has exceptional cognitive abilities that are extremely rare.
It is worth noting that IQ tests are not perfect measures of intelligence and have been criticized for their cultural biases and limitations. However, they remain a widely used tool for assessing cognitive abilities and comparing individuals’ intelligence levels.
Nadia Camukova is reported to have an IQ of 200, the highest IQ score ever recorded. Her exceptional intelligence places her in the category of profoundly gifted individuals.
Albert Einstein’s IQ
Albert Einstein, widely regarded as one of the most brilliant minds in history, is estimated to have had an IQ of 160. However, it’s important to note that Einstein likely never took an IQ test during his lifetime.
IQ, or intelligence quotient, is a score derived from standardized tests designed to assess human intelligence. While it can be a useful tool in some contexts, it’s also important to recognize that IQ tests have teir limitations and should not be used as the sole measure of a person’s intelligence or potential.
That being said, Einstein’s estimated IQ of 160 places him in the category of “genius” on the IQ scale. It’s worth noting, however, that many other factors contributed to Einstein’s incredible intellect and contributions to science, including his curiosity, creativity, persistence, and willingness to challenge conventional wisdom.
While Einstein’s estimated IQ may be impressive, it’s important to recognize that intelligence is a complex and multifaceted concept that cannot be reduced to a single number or score.
The Divinity of Ramanujan
Ramanujan was a renowned Indian mathematician who lived from 1887 to 1920. He was known for his exceptional mathematical abilities and his contributions to several fields of mathematics, including number theory, infinite series, and continued fractions.
Ramanujan was also known for his deeply religious beliefs and his devotion to Hinduism. He attributed his mathematical prowess to his family goddess, Namagiri Thayar, also known as Goddess Mahalakshmi of Namakkal. Ramanujan oftn looked to her for inspiration in his work and credited her for guiding him in his mathematical discoveries.
According to Ramanujan, he would receive mathematical insights and ideas in his dreams, which he believed were a gift from Namagiri Thayar. He also spoke of dreaming about blood drops, which symbolized the goddess’s consort, Narasimha.
Ramanujan’s faith and belief in a higher power were an integral part of his life and work. He often incorporated religious symbolism and references into his mathematical equations and formulas.
Ramanujan’s god was Namagiri Thayar or Goddess Mahalakshmi of Namakkal, whom he credited for his mathematical abilities and inspiration.
The Unparalleled Intelligence of Srinivasa Ramanujan
Srinivasa Ramanujan is considered one of the most intelligent mathematicians in history. There are several reasons that have been identified as contributing factors to his exceptional intellectual abilities.
Firstly, Ramanujan had a natural gift for mathematics from a very young age. He was able to solve complex mathematical problems on his own, without any formal training or guidance.
Secondly, Ramanujan had a deep passion for mathematics, and spent countless hours studying and exploring new mathematical concepts. His love for mathematics was so strong that he often neglected his other responsibilities, such as his job as a clerk.
Thirdly, Ramanujan had a unique way of thinking about mathematics. He was able to see patterns and connections that others could not, and was able to come up with new ideas and concepts that revolutionized the field of mathematics.
Ramanujan had a remarkable memory, which allowed him to memorize and recall vast amounts of mathematical information. This helped him to make connections betwen different mathematical concepts, and allowed him to solve complex problems with ease.
Ramanujan was an exceptionally intelligent mathematician due to his natural talent, deep passion, unique way of thinking, and remarkable memory. His contributions to mathematics continue to inspire and influence mathematicians to this day.
The Father of Mathematics
The father of mathematics is a title that has been given to sevral prominent mathematicians throughout history. However, the great Greek mathematician and philosopher Archimedes is widely regarded as the most influential and significant figure in the development of mathematics.
Archimedes was born in the city of Syracuse, on the island of Sicily, in 287 BC. He was a mathematician, physicist, engineer, inventor, and astronomer, and is credited with making many significant contributions to the field of mathematics.
Some of Archimedes’ most famous mathematical achievements include his work on infinitesimals, which laid the groundwork for calculus, and his development of the principle of buoyancy, which is still used today in the design of ships and other floating objects.
Archimedes also made significant contributions to the field of geometry, including the discovery of the relationship between the volume and surface area of a sphere, and his method for approximating the value of the mathematical constant pi.
In addition to his mathematical achievements, Archimedes was also a prolific inventor, and is credited with designing many machines and devices that were ahead of their time. Some of his most famous inventions include the Archimedes screw, a device used for lifting water, and the heat ray, a weapon that used mirrors to focus sunlight and set ships on fire.
Archimedes’ contributions to the field of mathematics have had a lasting impact, and he is widely regarded as one of the greatest mathematicians of all time.
The Mystery of the ‘Magic Number’ 1729
1729 is commonly referred to as the “Hardy-Ramanujan Number” or the “Taxicab Number” and is considered a magic number due to its unique properties. This number is the smallest positive integer that can be expressed as the sum of two different cubes in two different ways. To put it simply, there are two sets of three numbers that can be cubed and added together to equal 1729.
The first set of numbers is 1, 12, and 1728. 1 cubed is 1, 12 cubed is 1728, and when you add the two numbers together, you get 1729. The second set of numbers is 9, 10, and 1720. 9 cubed is 729, 10 cubed is 1000, and when you add the two numbers together, you get 1729.
This property was discovered by the famous mathematicians G.H. Hardy and Srinivasa Ramanujan during a conversation about numbers while Hardy was visiting Ramanujan in the hospital. Hardy remarked that the number of the taxi he took to the hospital, 1729, was a rather dull number. Ramanujan quickly replied that it was actually quite an interesting number and proceeded to explain its unique properties.
Aside from its mathematical properties, 1729 has also been referenced in pop culture, such as in the anime “Fairy Tail” where it is used as the password to access a secret room. The number has also been used in various puzzles and riddles, further cementing its status as a magic number.
1729 is considered a magic number due to its unique property of bing the smallest number that can be expressed as the sum of two different cubes in two different ways. Its discovery by Hardy and Ramanujan and its appearance in pop culture and puzzles have made it a fascinating number for mathematicians and enthusiasts alike.
The Genius of Srinivasa Ramanujan
Srinivasa Ramanujan is widely regarded as a mathematical genius due to his outstanding contributions to the field of mathematics. Born in Erode, Tamil Nadu, India in 1887, Ramanujan was a self-taught mathematician who made remarkable discoveries in number theory, infinite series, and analytical theory.
Ramanujan’s genius can be attributed to his unique ability to intuitively grasp complex mathematical concepts and relationships without the need for formal training. He was known for his ability to derive complex mathematical formulas and theorems seemingly out of thin air, often without any prior knowledge of the subject matter.
Ramanujan’s work on complex mathematical concepts such as partition functions, mock theta functions, and continued fractions, amng others, has had a significant impact on the field of mathematics. His contributions continue to be studied and used by mathematicians around the world.
Ramanujan’s genius was recognized during his lifetime, and he was awarded several honors and accolades, including being elected a Fellow of the Royal Society in 1918. He is often compared to other great mathematicians like Euler, Gauss, and Jacobi, for his natural mathematical talent and the impact of his work on the field.
Srinivasa Ramanujan is widely regarded as a mathematical genius due to his outstanding contributions to the field of mathematics, his unique ability to intuitively grasp complex mathematical concepts, and the impact of his work on the field.
Conclusion
Srinivasa Ramanujan was a self-taught mathematical genius who made significant contributions to the field of mathematics. Despite his brilliance, Ramanujan’s life was cut short due to illness and malnutrition. In the spring of 1917, he became acutely ill and was diagnosed with gastric ulcer, which may have been a recurrence of intestinal amoebiasis. Ramanujan’s condition improved eough for him to return to India in 1919, but he died the following year at the age of 32.
It is believed that Ramanujan’s death was caused by a combination of factors, including his weakened state from tuberculosis and his poor nutritional status. His illness may have also been exacerbated by his strict adherence to Hindu dietary laws, which restricted him from eating certain foods.
Srinivasa Ramanujan was a brilliant mathematician who made significant contributions to the field of mathematics. Unfortunately, his life was cut short by a combination of illness and malnutrition. Despite his untimely death, his legacy continues to inspire mathematicians around the world.