Samacheer Class 9 English - From Zero to Infinity

After studying the trigonometry book, Ramanujan went beyond the exercises: he rediscovered results, extended them, and began formulating his own theorems. This reading stimulated his independent work and led to the many notebooks of identities and formulae he later produced.

Ramanujan became so absorbed in mathematics that he neglected other school subjects. As a result he did not qualify in some formal examinations, which disappointed his father because it reduced his chances of a stable job and social approval.

When Ramanujan lacked proper paper, he did not stop working—he recorded results on scraps, backs of documents, and whatever was at hand. Friends and teachers who appreciated his talent sometimes supplied paper and materials so he could continue his work.

Title: From zero to Infinity
Author: Anonymous (Biography of Ramanujan)
Characters: Ramanujan, Classmates, Teachers and Ramanujan’s Father
Theme: Inborn intelligence with dilegence leads to excellence
Srinivasa Ramanujan was bom in Erode in Tamil Nadu on December 22, 1887. His father was a petty clerk in a cloth shop. From his early childhood, Ramanujan was evidently a prodigy. A question that he had asked as a boy had taken mathematician several centuries to answer. Through out his life in his native Kumbakonam he was always ahead of his mathematics teachers.
Senior students went to his dingy house to get their difficulties in Mathematics solved. At the age of 13, Ramanujan got Loney’s Trignometry from a college library. He mastered the book and began his own research. Ramanujan secured a first class in Mathematics in the Matriculation examination. He was awarded the Subramanyan Scholarship. His father was disappointed when he failed twice in his first year arts examination.
Ramanujan was always scribbling numbers and his father thought that he had gone mad. He began to look for a job. He needed money for food and papers to do his calculations. He started using even scraps of paper lying on the streets. Luckily the Director of Madras Port Trust, Francis Spring was impressed by his note books.
He gave him a clerical job on a monthly salary of ₹25. Later some teachers and educationist interested in Mathematics helped him get a research fellowship. The University of Madras granted him a fellowship of ₹75 even thQugh he had no qualifying degree.
“Genius does what it must, and talent does what it can”
(OR)
Srinivasa Ramanujan was bom on December 22, 1887, in Erode in Tamil Nadu. His father was a petty clerk in a cloth shop. From early childhood, he was a prodigy. Even Mathematicians had taken several centuries to answer his question. He was always ahead of his mathematics teachers.
Senior students went to his house to get their difficulties in Mathematics solved. When he was 13, he got Loney’s Trignometry from a college library. He began his own research, having mastered the book. He secured a first class in Mathematics in the matriculation examination. He was awarded the Sub-Ramayan Scholarship. But he failed twice in his first year arts examination. His father was upset.
As he was always scribbling numbers his father thought that he had gone mad. Ramanujan needed money for food and papers. He started using scraps of paper lying on the streets.
Luckily his note books impressed the Director of Madras Port Trust, Francis Spring. He gave him a clerical job on a salary of ₹25 a month. Later he got a research fellowship. The University of Madras granted him a fellowship of ₹75, though he had no qualifying degree. “There is no great genius without some touch of madness.

In 1913 Ramanujan sent a letter and notebooks containing his theorems to mathematicians in England. Hardy recognized the originality and invited Ramanujan to Cambridge. They worked together on number theory and related areas from about 1914; Hardy mentored him, helped publish his papers and arranged support for Ramanujan during his stay in England.

Match each word to the synonym in the middle column and the antonym in the right column:
1. distribute → circulate (synonym), collect (antonym)
2. infinite → boundless, measurable
3. significant → important, trivial
4. delight → joy, sorrow
5. unkempt → messy, clean
6. initiate → commence, conclude
7. conjecture → guess, fact

Provide a brief first-person or third-person retelling (4–6 sentences) capturing the main events, characters, and the moral. The sample above can be adapted after listening to the actual audio.

Divide class into groups of five. Assign roles: moderator (teacher), leader, timekeeper, note-taker and presenter. Suggested points to discuss (each group may choose some):
- Mathematics is used in daily activities: shopping (bills, discounts), cooking (measuring, proportions), time management, travel (distance, speed, fare).
- Mathematics in technology: mobile phones, computers, internet, banking (ATMs).
- Mathematics in professions: engineering, medicine (dosages), architecture, finance.
- Problem solving and logical thinking developed by mathematics.
- Importance of accuracy, estimation and data interpretation in decision making.
Conclude with each group presenting main ideas; moderator summarizes and highlights real-life examples and moral: mathematics makes life efficient and informed.

This is a project task. Follow these steps:
1. Choose five famous personalities (scientists, mathematicians, inventors, artists).
2. Research reliable sources (books, reputable websites) and note key facts: birth/death, education, main contributions, awards.
3. Write a concise biography (6–8 lines) for each person, include a picture and label it, and note one major achievement/invention.
4. Compile into a scrapbook with a title page, index, and references. Decorate and caption pictures.
Examples to consider: Albert Einstein (theory of relativity), Marie Curie (radioactivity), Srinivasa Ramanujan (number theory), Thomas Edison (electric light/phonograph), Leonardo da Vinci (art & inventions).

Shepherd-Barron conceived the idea after realizing people needed cash when banks were closed (for example on Sundays). He combined that need with his experience of vending machines and developed the concept of an automated cash-dispensing machine.

While ATMs physically dispense cash, the security and electronic authorization of ATM transactions rely on modern cryptography, which is built on number theory. Ramanujan's deep contributions to number theory and modular forms contributed to the mathematical foundations that later influenced cryptographic methods used in secure banking systems.

When I was twelve I entered a local painting competition on a whim. I spent an evening and the following weekend working on a landscape inspired by my grandmother’s garden. On the day of judging I felt nervous because everyone else’s work looked professional. To my surprise the judge praised the composition and use of colour, and announced my painting as one of the winners. The prize was a sketching set and an opportunity to display my painting in the community hall. That recognition gave me confidence to pursue art further; it taught me that quiet passion and steady effort can lead to unexpected rewards.

My favourite personality is Marie Curie because of her courage, hard work and pioneering contributions to science. Born in Poland, she overcame financial difficulties and gender prejudice to study physics and chemistry. Her research on radioactivity earned her two Nobel Prizes, and she established laboratories to further scientific study and medical applications. I admire her integrity and dedication to using science for the benefit of humanity, including training young scientists and aiding hospitals during wartime. Her life shows that determination and curiosity can break barriers and leave a lasting legacy that inspires generations.