Facts about cv raman?

One of the most famous Indian scientists, CV Raman was born on November 7, 1888, in Tiruchirapalli, Tamil Nadu. He was the second son of Chandrasekhara Iyer and Parvathi Ammal. His father was a lecturer in mathematics and physics at a local college. Raman studied at Presidency College in Madras, now Chennai. After graduation, he joined the Indian Finance Department as an accountant. However, he resigned from his job after a year to focus on studies. He went to England to study for his M.Sc. and Ph.D. in physics.

Chandrasekhara Venkata Raman was an Indian physicist who was born on November 7th, 1888 in Tamil Nadu, India. He was the first person of Indian origin to receive a Nobel Prize in the sciences. He is best know for his discovery of the Raman Effect, which is the inelastic scattering of light. He also made significant contributions to the fields of acoustics and optics.

Why did CV Raman get Nobel Prize?

The Academy of Sciences has resolved to award the Nobel Prize in Physics for 1930 to Sir Chandrasekhara Venkata Raman for his work on the scattering of light and for the discovery of the effect named after him. Raman’s work on the scattering of light led to the discovery of the Raman effect, which is the inelastic scattering of photons by molecules. This discovery has had a major impact on the field of spectroscopy, and has led to the development of new techniques for the study of molecules and their interactions with light.

Sir Chandrasekhara Venkata Raman was an Indian physicist who made significant contributions to the physics of light. He was awarded the Nobel Prize in Physics in 1930 for his discovery of the Raman effect. Raman’s work was pivotal in the development of modern optics and spectroscopy, and his research continues to be influential today.

What did CV Raman discover

This institute is home to one of the most important discoveries in the field of optics and light scattering. In 1928, Sir C V Raman discovered that when a beam of coloured light entered a liquid, a fraction of the light scattered by that liquid was of a different colour. Raman showed that the nature of this scattered light was dependent on the type of sample present. This discovery revolutionised the field of optics and paved the way for further advances in the study of light scattering.

The Raman effect is a scattering effect that was discovered by Indian physicist CV Raman in February 1928. It is caused by the interaction of light with molecules, and is important in physics and chemistry. The Raman effect is named after CV Raman, who discovered it while on a boat trip back from England in 1921.

Who is the No 1 scientist in India?

Dr. CV Raman was a groundbreaking scientist who was awarded the Nobel Prize in Physics in 1930 for his work on light scattering. He was born in Tiruchirapalli, India on November 7, 1888, and was the first Asian and non-White recipient of the Nobel Prize in the Science field. Dr. Raman’s work was extremely influential in the development of modern physics, and he is considered one of the most important scientists of the 20th century.

Galileo was a true pioneer in the field of science. His groundbreaking inventions and discoveries earned him the title ‘the father of science.’ Galileo was an experimentalist who for the first time had the insight and talent to link theory with experiment. He was also a brilliant thinker and his work laid the foundation for many of the scientific principles we take for granted today. Galileo was truly a giant of science and his work has had a lasting impact on the world.

Which 2 Indian scientists won the Nobel Prize?

The Nobel Prize in Physics was awarded to Subrahmanyan Chandrasekhar in 1983 for his theoretical studies of the physical processes of importance to the structure and evolution of the stars. He is the nephew of another Nobel Laureate, Sir CV Raman. Chandrasekhar is an Indian-American mathematician.

The Raman Effect is the scattering of light with smaller wavelengths, which appear blue. This is why the sky and the sea often appear blue. This phenomenon is named after Indian scientist Sir Chandrasekhara Raman, who discovered it in 1928. National Science Day is celebrated in India on his honor every year on February 28.

Why is the Raman Effect important

The Raman effect occurs when photons scatter off of molecules and the energy of the photons is shifted. This energy shift can be used to explain various natural phenomenon, like the appearance of the blue sky, advanced sunrise and delayed sunset. The effect can also explain the appearance of the red sky during sunrise and sunset.

Raman Effect is the inelastic scattering of photons by molecules. It is named after Sir CV Raman who discovered it in 1928. When a molecule absorbs a photon, it may re-emit the photon at a lower energy (and longer wavelength). The Raman Effect can be used to identify molecules by their fingerprint spectrum. It is also used in Raman spectroscopy, a technique used to study the properties of materials.

How Raman effect changed the world?

Raman Effect is named after the great Indian physicist Sir CV Raman who discovered it in 1928. This effect describes the inelastic scattering of light when it interacts with matter. This discovery opened a whole new world of scientific discovery and applications of the phenomenon of light. Some of the key legacy of Raman Effect are:

1) It provides a powerful tool for the study of matter and has found applications in a wide range of fields such as spectroscopy, materials science, chemistry, biology and medicine.

2) Raman scattering is used in Raman spectroscopy which is a powerful analytical technique used to identify molecules and to study their structure and dynamics.

3) The discovery of the Raman Effect was a stepping stone in the development of quantum Theory.

4) Raman Effect has also led to the development of new materials with novel properties such as photonic crystals and photonic band-gap materials.

5) It has also found applications in optoelectronics, communications and information storage.

The legacy of Raman Effect is extremely vast and it continues to play an important role in many scientific fields even today.

Raman’s early experimental work was hampered by the very weak intensity of the scattered light. He used a heliostat (a device that uses a mirror to track the sun’s movement) to provide a light source for his early studies. This posed a challenge because the light was so weak that it was difficult to measure.

What is Raman effect called

Raman scattering is a type of light scattering that occurs when photons are scattered by molecules at higher energy levels. It is also known as the Raman effect. The Raman effect was first observed by Indian physicist Sir C. V. Raman in 1928. Raman scattering occurs when photons interact with molecules and cause them to vibrate. The frequency of the scattered photons is different from the frequency of the incident photons, and this difference is proportional to the energy of the molecule’s vibration. Raman scattering can be used to identify molecules and to study their structure and dynamics.

The highest cited scientist is Eric S Lander from the Office of Science and Technology Policy, United States with 792,604 citations. He is a renowned geneticist and a director of the Broad Institute of MIT and Harvard. He has made significant contributions to the fields of genomics and human genetics. His work has helped to improve our understanding of the human genome and its evolution.

Who is the first female scientist?

Mary Anning is considered one of the most important fossil hunters of her time. She made many discoveries in her lifetime, most notably the discovery of the first complete ichthyosaur skeleton. She also discovered important fossilised fish, pterosaurs, and an early plesiosaur. Her work contributed to a major shift in scientific thinking about prehistoric life.

One of the most important things to note about these 7 scientists is that they all made change in the world through their research and discoveries. Some, like Marie Curie and Isaac Newton, are household names. Others, like Rosalind Franklin, may be less well known but made just as large of an impact in their field. What all of these scientists have in common is that they broke new ground and expanded our understanding of the world around us.

Final Words

Sir Chandrasekhara Venkata Raman was an Indian physicist who made groundbreaking works in the field of light scattering. He was the first Indian to be awarded a Nobel Prize in Science, and he is considered one of the most prominent scientists of the 20th century. Raman was born in Tamil Nadu, India in 1888. He studied physics and mathematics at Presidency College in Madras, and went on to earn his doctorate from the University of Calcutta. After a brief teaching stint at the same university, he joined the Indian Finance Department in Kolkata. In 1917, he began conducting research at the Indian Association for the Cultivation of Science, where he made his most famous discovery—Raman scattering. In 1930, he was appointed the Palit Professor of Physics at the University of Calcutta, a position he held until his retirement in 1948. Raman received numerous honors throughout his career, including the Nobel Prize in Physics in 1930, the Bharat Ratna in 1954, and the Lenin Peace Prize in 1957. He died in 1970 at the age of 82.

Dr. C.V. Raman was a Nobel Prize-winning scientist who made important contributions to the fields of optics and acoustics. He was born in India in 1888 and died in 1970.