Best 10 Lines On Srinivasa Ramanujan In English [2025]

Discover 10 lines on Srinivasa Ramanujan, the legendary mathematician known for his remarkable contributions to mathematics and his extraordinary journey.

Have you ever wondered how someone with almost no formal education can change the world of mathematics? Srinivasa Ramanujan is a perfect example of this. Born in 1887 in Erode, India, Ramanujan was a self-taught mathematician who made groundbreaking contributions to number theory, continued fractions, and infinite series. 

Despite facing numerous challenges, including poverty and health problems, his love for mathematics never wavered. At the age of 15, Ramanujan began developing his own theories, which caught the attention of British mathematician G.H. Hardy.

Hardy invited him to Cambridge University, where their collaboration led to some of the most famous results in mathematics. Ramanujan’s work is still studied today, and his results continue to inspire mathematicians around the world. 

His remarkable journey shows how passion, determination, and creativity can lead to extraordinary achievements, even without formal training. In this article, we’ll take a closer look at the life and contributions of this mathematical genius and explore how his work has shaped modern mathematics.

10 Lines On Srinivasa Ramanujan PDF

20 Points About Srinivasa Ramanujan

1. Srinivasa Ramanujan was born on December 22, 1887, in Erode, India.
2. He showed exceptional mathematical talent from a young age.
3. Ramanujan was largely self-taught, learning mathematics through books and intuition.
4. He was deeply interested in number theory, algebra, and infinite series.
5. At the age of 16, he discovered his first major mathematical result.
6. In 1913, he sent a letter to G.H. Hardy, a prominent British mathematician, which led to a collaboration.
7. Hardy invited Ramanujan to Cambridge University, where they worked together for several years.
8. Ramanujan’s work on continued fractions and infinite series remains highly regarded.
9. He developed the famous Ramanujan-Hardy number 1729, known as the “Hardy-Ramanujan number.”
10. Despite his lack of formal training, Ramanujan made major contributions to elliptic functions and modular forms.
11. He was elected as a fellow of the Royal Society in 1918.
12. Ramanujan struggled with health issues throughout his life, particularly due to poor nutrition.
13. He was deeply religious and attributed his mathematical insights to the divine guidance of a goddess, Namagiri.
14. His work has influenced modern mathematical research and has inspired numerous mathematicians.
15. Ramanujan developed the Ramanujan prime and the Ramanujan theta function.
16. He was known for his intuition and ability to derive complex formulas with little explanation.
17. Ramanujan’s work continues to be used in fields such as physics, computer science, and number theory.
18. He died at the young age of 32, on April 26, 1920, due to health complications.
19. The Institute of Mathematical Sciences in Chennai, India, is named in his honor.
20. Ramanujan’s legacy continues to inspire mathematicians and students worldwide.

Write About Srinivasa Ramanujan

Srinivasa Ramanujan was a mathematical genius from India, born in 1887. Despite having no formal education in mathematics, he developed brilliant theories, particularly in number theory, algebra, and infinite series. His work was highly original, and many of his findings were groundbreaking.

At the age of 16, Ramanujan started creating his own mathematical formulas, which caught the attention of the famous British mathematician G.H. Hardy. This led to a collaboration that greatly advanced mathematical research.

Ramanujan’s contributions include the Ramanujan prime, continued fractions, and modular forms. His legacy continues to inspire mathematicians around the world. Despite his early death at 32, Ramanujan’s work has had a lasting impact on mathematics and continues to be studied and applied in various fields.

5 Lines on Srinivasa Ramanujan

1. Srinivasa Ramanujan was born on December 22, 1887, in Erode, India.
2. He was a self-taught mathematician who made significant contributions to number theory.
3. Ramanujan collaborated with British mathematician G.H. Hardy, which led to groundbreaking results.
4. His work on infinite series, continued fractions, and modular forms has had a lasting impact on mathematics.
5. Ramanujan passed away at the age of 32, but his legacy continues to inspire mathematicians.

Important Points About Srinivasa Ramanujan

1. Born on December 22, 1887, in Erode, India.
2. Self-taught mathematician with no formal education in mathematics.
3. Known for his contributions to number theory, continued fractions, and infinite series.
4. Developed the famous Ramanujan-Hardy number 1729.
5. Collaborated with G.H. Hardy, leading to significant mathematical discoveries.
6. Elected as a fellow of the Royal Society in 1918.
7. Developed the Ramanujan prime and the Ramanujan theta function.
8. Despite health issues, he made lasting contributions to mathematics.
9. Was deeply religious and believed his mathematical insights were divinely inspired.
10. Died at 32, but his legacy continues to influence modern mathematics.

Srinivasa Ramanujan Essay in 100 Words

Srinivasa Ramanujan was a self-taught mathematician born in 1887 in Erode, India. Despite having little formal education, his passion for mathematics led him to create original theories in number theory, algebra, and infinite series. Ramanujan’s work caught the attention of British mathematician G.H.

Hardy, leading to a fruitful collaboration. His contributions, including the Ramanujan-Hardy number 1729, have had a lasting impact on mathematics. Ramanujan’s work continues to inspire mathematicians around the world, even though he passed away at the young age of 32. His genius and determination remain an inspiration.

Srinivasa Ramanujan’s Contribution to Mathematics

Srinivasa Ramanujan made several groundbreaking contributions to mathematics, particularly in number theory. His work on infinite series, continued fractions, and modular forms revolutionized these fields. He developed the famous Ramanujan prime and Ramanujan theta function.

Ramanujan’s collaboration with G.H. Hardy led to many important discoveries, such as the Hardy-Ramanujan number 1729, known as the “most interesting number.” His work on partition theory also influenced modern mathematics.

Despite his lack of formal education, Ramanujan’s intuition and innovative approach to mathematics have had a lasting impact on the field, inspiring mathematicians worldwide.

10 Lines On Srinivasa Ramanujan In English

Srinivasa Ramanujan was one of the most brilliant mathematicians in history, known for his groundbreaking contributions to number theory. Despite facing numerous challenges, his work continues to inspire mathematicians worldwide.

1. Ramanujan was born on December 22, 1887, in Erode, India.
2. He showed an exceptional talent for mathematics from a very young age.
3. At 15, he started developing his own mathematical theories, often without formal training.
4. Ramanujan is famous for his work on infinite series and continued fractions.
5. In 1913, he sent a letter to the British mathematician G.H. Hardy, leading to a famous collaboration.
6. Despite being self-taught, Ramanujan made significant contributions to the field of mathematics.
7. He developed the Ramanujan prime and the Ramanujan-Hardy number, among many other important theories.
8. Ramanujan struggled with poor health throughout his life, which ultimately shortened his life.
9. He was elected as a fellow of the Royal Society in 1918, one of the highest honors in the scientific world.
10. Ramanujan passed away at the young age of 32, but his work continues to influence mathematics today.

What About Ramanujan in 10 Points?

1. Born in India: Srinivasa Ramanujan was born on December 22, 1887, in Erode, India.
2. Self-Taught Genius: He was mostly self-taught and had no formal education in mathematics.
3. Mathematical Intuition: Ramanujan developed his own theories and formulas, especially in number theory.
4. Collaboration with G.H. Hardy: In 1913, he sent a letter to G.H. Hardy, which led to a fruitful collaboration.
5. Ramanujan-Hardy Number 1729: The number 1729, known as the Hardy-Ramanujan number, is famous for its connection to Ramanujan’s work.
6. Ramanujan’s Prime: He discovered the concept of Ramanujan primes, which are closely related to number theory.
7. Modular Forms: His research in modular forms significantly influenced modern mathematics.
8. Fellow of the Royal Society: Ramanujan was elected a fellow of the Royal Society in 1918.
9. Struggled with Health: He faced serious health issues throughout his life, which led to his early death at 32.
10. Legacy: Ramanujan’s work continues to inspire mathematicians worldwide, and his theories remain integral to many fields of mathematics.

Who is Ramanujan? (15 to 20 Lines)

Srinivasa Ramanujan was a brilliant Indian mathematician born on December 22, 1887, in Erode, India. Despite having little formal education, Ramanujan developed groundbreaking theories, particularly in the fields of number theory, infinite series, and continued fractions.

His passion for mathematics was evident from a very young age, as he started exploring complex mathematical concepts on his own. At the age of 16, Ramanujan discovered his first important mathematical result, which led him to further research. In 1913, he sent a letter filled with his mathematical discoveries to the renowned British mathematician G.H. Hardy. Impressed by his work, Hardy invited him to Cambridge University in England, where they collaborated on several mathematical problems.

Ramanujan’s work on prime numbers, partitions, and modular forms is still highly regarded. He is famous for the Hardy-Ramanujan number 1729, which is known as the “smallest number expressible as the sum of two cubes in two different ways.”

His theories continue to inspire and influence modern mathematics. Although he struggled with poor health throughout his life, he made significant contributions to the field. Ramanujan passed away at the age of 32 in 1920, but his legacy endures through the impact of his work.

Who is Srinivasa Ramanujan? (Short Note)

Srinivasa Ramanujan was an Indian mathematician, born on December 22, 1887, in Erode, India. He was largely self-taught and showed an extraordinary talent for mathematics from a very young age. Despite having no formal education in mathematics, he developed revolutionary theories in number theory, infinite series, and continued fractions.

His collaboration with British mathematician G.H. Hardy led to several major discoveries, and he was invited to Cambridge University, where he spent several years. Ramanujan’s work continues to influence modern mathematics. He passed away at the young age of 32 but remains a legend in the world of mathematics.

What is the 10 Point of Mathematics Day?

1. Date of Celebration: Mathematics Day is celebrated on December 22 every year, in honor of Srinivasa Ramanujan’s birth.
2. Legacy of Ramanujan: The day recognizes Ramanujan’s contributions to mathematics and his influence on mathematical research.
3. Encouragement of Mathematical Studies: It promotes the importance of mathematics in daily life and its role in science and technology.
4. Inspiration for Students: Mathematics Day motivates students to pursue careers in mathematics and research.
5. Honoring Contributions: It honors mathematicians who have contributed significantly to the development of the field.
6. Educational Events: Schools and universities organize events like lectures, seminars, and competitions to celebrate the day.
7. Mathematical Exhibitions: Exhibitions are held to showcase Ramanujan’s work and mathematical achievements.
8. Promoting Mathematical Research: The day emphasizes the significance of continuing mathematical research.
9. National Mathematics Year: In 2012, the Indian government declared the year as the National Mathematics Year, marking Ramanujan’s 125th birth anniversary.
10. Inspiring Future Generations: The day aims to inspire future generations to explore the world of mathematics and its applications.

Who is the Mathematician in 10 Lines?

1. A mathematician is someone who specializes in mathematics.
2. Mathematicians explore patterns, structures, and relationships in numbers and shapes.
3. They apply mathematical theories to solve real-world problems in science, engineering, and technology.
4. Mathematicians work in various fields, including algebra, geometry, and calculus.
5. Famous mathematicians like Pythagoras, Euclid, and Archimedes laid the foundation for modern mathematics.
6. In modern times, mathematicians like Albert Einstein and Srinivasa Ramanujan made groundbreaking contributions.
7. Their work often involves solving complex problems and proving mathematical theorems.
8. Mathematicians use logic and critical thinking to explore abstract concepts and make predictions.
9. They also work on mathematical models that help in fields like economics, computer science, and physics.
10. Mathematicians are essential in advancing human knowledge and solving global challenges.

Why is 1729 Called the Ramanujan Number?

The number 1729 is known as the “Ramanujan number” because of a famous story related to Srinivasa Ramanujan. According to the story, when G.H. Hardy visited Ramanujan in the hospital, he mentioned that he had arrived in a taxi with the unremarkable number 1729.

Hardy remarked that 1729 seemed to be a dull number. In response, Ramanujan instantly said that 1729 is, in fact, a very interesting number, as it is the smallest number that can be expressed as the sum of two cubes in two different ways. Specifically:

1729 = 1³ + 12³ = 9³ + 10³.

Srinivasa Ramanujan Essay in 100 Words

Srinivasa Ramanujan, born on December 22, 1887, in Erode, India, was a self-taught mathematician who made significant contributions to number theory, continued fractions, and infinite series. Despite having no formal education in mathematics, Ramanujan developed groundbreaking theories and sent a letter with his work to G.H. Hardy, a British mathematician.

Hardy invited him to Cambridge University, where they collaborated on several important mathematical problems. His work continues to influence modern mathematics, and the number 1729, known as the Hardy-Ramanujan number, remains a testament to his genius. Ramanujan passed away at the age of 32, leaving a lasting mathematical legacy.

Srinivasa Ramanujan Essay in 200 Words

Srinivasa Ramanujan was born on December 22, 1887, in Erode, India. He was a self-taught mathematical genius who made remarkable contributions to the field of mathematics, especially in number theory, continued fractions, and infinite series. Ramanujan’s love for mathematics began early, and by the time he was in his teens, he had developed original mathematical theories that astonished experts.

At the age of 16, Ramanujan became interested in advanced mathematical concepts, working independently without any formal training. His work caught the attention of G.H. Hardy, a renowned British mathematician, when Ramanujan sent him a letter in 1913 detailing his mathematical findings.

Hardy was impressed by Ramanujan’s ability to develop complex formulas without following standard approaches. Hardy invited him to Cambridge University in England, where they collaborated on several groundbreaking mathematical discoveries.

Ramanujan’s work on prime numbers, partitions, and modular forms has had a lasting impact on mathematics. His discovery of the number 1729, now known as the Hardy-Ramanujan number, is one of his most famous contributions.

Despite suffering from poor health throughout his life, Ramanujan’s intellectual legacy continues to influence mathematicians around the world, and his contributions remain fundamental to various mathematical fields. He died in 1920 at the young age of 32, but his work lives on.

Srinivasa Ramanujan Essay in 500 Words

Srinivasa Ramanujan, born on December 22, 1887, in Erode, Tamil Nadu, India, is regarded as one of the greatest mathematicians in history. Despite his lack of formal training in mathematics, Ramanujan made groundbreaking contributions to number theory, continued fractions, infinite series, and modular forms. His early life was marked by a fascination with numbers, and he developed his own methods for solving complex mathematical problems.

From a young age, Ramanujan was obsessed with mathematics, dedicating himself to studying advanced concepts. By the age of 16, he had already created some remarkable mathematical formulas, many of which were later proven to be correct.

He was largely self-taught and relied on mathematical books to learn and develop new theories. However, his passion for mathematics came at the cost of his academic studies in school, and he failed in most subjects, except for mathematics.

In 1913, Ramanujan sent a letter to G.H. Hardy, a prominent British mathematician, which contained several of his mathematical findings. Hardy was initially skeptical but soon realized that Ramanujan’s work was extraordinary.

Hardy invited Ramanujan to Cambridge University, where the two collaborated on various mathematical problems. This partnership proved to be highly fruitful, as Ramanujan’s intuition and Hardy’s formal mathematical knowledge led to several significant discoveries, including Ramanujan’s work on modular forms and infinite series.

One of Ramanujan’s most famous contributions is his work on the number 1729, now known as the Hardy-Ramanujan number. The number is known for being the smallest number that can be expressed as the sum of two cubes in two different ways:

1729 = 1³ + 12³ = 9³ + 10³.

This discovery has become a symbol of Ramanujan’s mathematical genius. Additionally, Ramanujan made important contributions to the understanding of prime numbers and developed the concept of Ramanujan primes.

Ramanujan’s health, however, was always a challenge. He suffered from various illnesses throughout his life, and his health deteriorated during his time in England. Despite this, he continued to work relentlessly, producing remarkable results. In 1918, he was elected as a fellow of the Royal Society, a prestigious recognition for his contributions to mathematics.

In 1919, Ramanujan returned to India due to his poor health, and he continued his mathematical work until his death on April 26, 1920, at the age of just 32. Although his life was short, his impact on mathematics was profound. His work continues to inspire mathematicians and has influenced areas such as quantum physics, computer science, and cryptography.

Ramanujan’s legacy lives on through his mathematical contributions, many of which were groundbreaking at the time and remain influential today. He is remembered as a genius who, against all odds, changed the course of mathematics. His life story is a testament to the power of passion, determination, and creativity, and his work continues to inspire future generations of mathematicians.

Srinivasa Ramanujan Essay in 1000 Words

Srinivasa Ramanujan, born on December 22, 1887, in Erode, Tamil Nadu, India, was one of the most extraordinary mathematical minds in history. He achieved remarkable success in mathematics despite his lack of formal training and the challenges he faced throughout his life. Ramanujan’s story is a powerful reminder of the boundless potential of human intellect, passion, and perseverance.

Ramanujan’s early life was marked by an intense fascination with numbers. As a child, he was deeply engrossed in mathematics and quickly outpaced his peers. By the time he was in school, Ramanujan had already developed an intuitive grasp of advanced mathematical concepts.

His mathematical prowess, however, came at the cost of his performance in other subjects, and he failed in all but mathematics in his school exams. This led to his withdrawal from formal schooling at the age of 16, but it did not stop his passion for mathematics. Instead, he dedicated himself entirely to the study of mathematics, developing his own methods and theories.

During his teenage years, Ramanujan immersed himself in a book titled A Synopsis of Elementary Results in Pure and Applied Mathematics by G.S. Carr, which contained a collection of mathematical results and theorems. Drawing inspiration from this book, Ramanujan began creating his own theorems and formulas, many of which were highly original and complex.

His work was largely unnoticed until he sent a letter in 1913 to G.H. Hardy, a renowned British mathematician at Cambridge University, detailing his findings. Hardy was initially skeptical of the letter but soon recognized Ramanujan’s remarkable talent.

Hardy invited Ramanujan to Cambridge, and in 1914, Ramanujan arrived in England. Despite the challenges of adapting to a new culture and the harsh climate, Ramanujan quickly became an integral part of the mathematical community at Cambridge.

The collaboration between Hardy and Ramanujan led to numerous groundbreaking discoveries, particularly in the areas of number theory and mathematical analysis. Ramanujan’s work on infinite series, continued fractions, and modular forms was especially influential.

One of Ramanujan’s most famous contributions is his work on the number 1729, known as the Hardy-Ramanujan number. The number is famous because it is the smallest number that can be expressed as the sum of two cubes in two different ways:

1729 = 1³ + 12³ = 9³ + 10³.

This property made the number 1729 famous and became a symbol of Ramanujan’s extraordinary mathematical abilities. Another of Ramanujan’s significant contributions was his work on the partition function, which deals with the ways in which a number can be expressed as the sum of integers. His discoveries in this area influenced later developments in combinatorics and mathematical analysis.

Despite his success in mathematics, Ramanujan’s health was always fragile. He suffered from various illnesses throughout his life, and the cold climate of England worsened his condition. In 1919, after five years in England, Ramanujan returned to India due to his deteriorating health.

Although he continued to work on mathematics during his time in India, his health continued to decline. He died on April 26, 1920, at the young age of 32, leaving behind a legacy of mathematical discoveries that would continue to influence future generations.

Ramanujan’s work had a lasting impact on mathematics, and his legacy continues to inspire mathematicians worldwide. His contributions to number theory, prime numbers, and infinite series remain foundational to many areas of mathematical research.

His work has influenced fields such as quantum physics, computer science, cryptography, and statistical mechanics. His intuitive approach to mathematics, coupled with his ability to develop complex formulas without formal training, continues to be admired by mathematicians to this day.

In addition to his mathematical genius, Ramanujan’s deep religious beliefs also played a significant role in his life. He attributed many of his mathematical insights to divine inspiration, particularly from the Hindu goddess Namagiri, whom he considered his spiritual guide.

This spiritual connection to mathematics is evident in the notebooks Ramanujan left behind, filled with equations and formulas that he believed were divinely inspired.

Ramanujan’s legacy is not only preserved through his mathematical contributions but also through the institutions that honor his name. The Institute of Mathematical Sciences in Chennai, India, is dedicated to his memory, and several awards and honors have been established in his name to recognize outstanding achievements in mathematics.

Srinivasa Ramanujan’s life and work continue to serve as an inspiration to mathematicians, students, and individuals around the world. His story is a testament to the power of determination, creativity, and passion.

Despite the challenges he faced—whether in terms of health, formal education, or cultural differences—he never wavered in his pursuit of mathematical discovery.

His remarkable contributions have had a profound impact on the development of mathematics, and his legacy will continue to influence generations of mathematicians for years to come.

Wrap Up

In conclusion, Srinivasa Ramanujan’s life is a testament to the power of perseverance and passion. Despite facing enormous personal and professional challenges, he made immense contributions to mathematics that continue to influence the field today. 

Ramanujan’s story proves that talent can emerge from unexpected places, and it highlights the importance of nurturing curiosity and creativity. His legacy lives on in the theorems, formulas, and concepts he developed, which are still being used and built upon by mathematicians. 

Ramanujan’s work serves as an inspiration to anyone who dares to dream big, no matter the obstacles they may face. His life reminds us that the pursuit of knowledge can lead to profound discoveries, even when the path is not easy.

Alberto Robino

Alberto Robino is a passionate content creator who specializes in sharing concise, insightful, and engaging 10-line facts on a variety of topics. With a love for simplifying complex ideas, he enjoys providing quick, digestible information to help people learn fast.