Essays

Chandrasekhar Venkata Raman was the first Asian scientist to win the Nobel Prize. He was a man of immense curiosity and a lively sense of humor with spirit of inquiry and devotion to science he laid the foundations for scientific research in India. And he won honour as a scientist and affection as a teacher and a genius.

Chandrasekhar Venkata Raman was born at Trichinopoly in Southern India on November 7th, 1888. His father was a lecturer in Mathematics and Physics so that from the first he was nourished in an academic atmosphere. He entered Presidency College, Madras in 1902. Passed his B.A. examination and in 1904, winning the first place and the gold medal in Physics; in 1907 he gained his M.A. degree, obtaining the highest distinctions. On May 6, 1907, Raman married Lokasundari Ammal.

His earliest researches in optics and acoustics—the two fields of investigation to which he has dedicated his entire career—were carried out while he was a student. At that time a scientific career did not appear to present the best possibilities, Raman joined the Indian Finance Department in 1907; though the duties of his office took most of his time, Raman found opportunities for carrying on experimental research in the laboratory of the Indian Association for the Cultivation of Science at Calcutta (of which he became Honorary Secretary in 1919).

In 1917, he was offered the newly endowed Palit Chair of Physics at Calcutta University and decided to accept it. After 15 years at Calcutta he became Professor at the Indian Institute of Science at Bangalore (1933-1948) and since 1948 he had been Director of the Raman Institute of Research at Bangalore, established and endowed by himself. He also founded the Indian Journal of Physics in 1926, of which he was the Editor. Raman sponsored the establishment of the Indian Academy of Sciences and has served as President since its inception. He also initiated the proceedings of that academy, in which much of his works has been published and is President of the Current Science Association, Bangalore, which publishes Current Science (India).

 The works of the German scientist Helmholtz(1821—1891) and the English scientist Lord Raleigh (1842—1919) on acoustics (the study of sound) influenced Raman. He took immense interest in the study of sound. When he was eighteen years of age, one of his research papers was published in the "Philosophical Magazine' of England. Later another paper was published in the scientific journal 'Nature'. One evening Raman was returning from his office in a tramcar. He saw the name plate of the 'Indian Association for the Cultivation of Science' at 210, Bow Bazaar Street. Immediately he got off the tram and went in. Dr. A marital Sir car was the Honorary Secretary of the Association- There were spacious rooms and old scientific instruments, which could be used for demonstration of experiments. Raman asked whether he could conduct research there in his spare time. Sir car gladly agreed. Raman took up a house adjoining the Association. A door was provided between his house and the laboratory. During the daytime he attended his office and carry out his duties. His mornings and nights were devoted to research. This gave him fill] satisfaction. So he continued his : ceaseless activities in Calcutta.

 Some of Raman’s early memoirs appeared as Bulletins of the Indian Association ! for the Cultivation of Science (Bull. 6 and 11 dealing with the "Maintenance of  Vibrations": Bull. 15, 1918 dealing with the theory of the musical instruments of the violin family). He contributed an article on the theory of musical instruments to the 8th Volume of the Hand book of Physics, 1928. In 1922, he published his work on the "Molecular Diffraction of Light", the first of a series of investigations with his 1 collaborator which ultimately led to his discovery, on the 28th of February. 1928, of I their addiction effect which bears his name ("Anew radiation", Indian J-Phys-. 2 (1928) ' 387), and which gained him the 1930Nobel Prize in Physics. He was elected a Fellow j of the Royal Society early in his career (1924) and was knighted in 1929.

Other investigations carried out by Raman were: his experimental and theoretical studies on the diffraction of light by acoustic waves of ultrasonic and hypersonic frequencies (published 1934-1942), and those on the effects produced by X-rays on infrared vibrations in crystals exposed to ordinary light. In I948 Raman, through studying the spectroscopic behaviour of crystals, approached in a new manner fundamental problems of crystal dynamics. His laboratory has been dealing with the structure and properties of diamond, the structure and optical behaviour of numerous iridescent substances (labradorite, pearly feldspar. angle. opal. and pearls). Among his other interests have been the optics of colloids, electrical and magnetic an isotropy and the physiology of human vision. Raman has been honored with a large number of honorary doctorates and memberships of scientific societies. Sir Venkata Raman died in 1970.

Vocabulary

1. immense—unusually great in size or amount or degree or especially extent or scope, huge. 2. nourished—provide with nourishment, alimented, sustained. 3. earliest—earlier. most other, soonest. 4. acoustics—the study of the physical properties of sound, curatives, remedies- 5. investigation—probe, an inquiry into unfamiliar or questionable activities. 6. possibilities—a future prospect or potential, hypotheses. 7. laboratory—a workplace for the conduct of scientific research, lab. 8. inception—an event that is a beginning; a first part or stage of subsequent events, origination. 9. acoustics—curatives, natural philosophy, remedies. 10. demonstration—logical proof, presentation, proof of a logical theorem. 11. memoir—autobiography, an account of the author's personal experiences. 12. collaborators—someone who assists in a plot, partner in crime, henchmen. 13. radiation—the physical phenomenon of radiating energy in the form of waves or particles, emanation. 14. experimental—data-based, observational. 15. acoustic—a remedy for hearing loss or deafness, acoustical. 16. frequencies—often nesses, the ratio of the number of observations in a statistical category to the total number of observations. 17. vibrations—a distinctive emotional atmosphere; sensed intuitively, vibes- 18. spectroscopic—of or relating to or involving spectroscopy. 19. dynamics—kinetics, the branch of mechanics concerned with the forces that cause motions of bodies. 20. iridescent—changeable, opalescent. 21. Labrador—geographic area, geographical region.