Chemistry, asked by nandikafarswan6, 8 months ago

what is the contribution of C.V.Raman?​

Answers

Answered by ArpitPandey17
1

Explanation:

Raman was president of the 16th session of the Indian Science Congress in 1929. He won the 1930 Nobel Prize in Physics “for his work on the scattering of light and for the discovery of the Raman effect”. He was the first Asian and first non-white to receive any Nobel Prize in the sciences.

Answered by rahbaransari5690
1

Raman Effect: Raman conducted research about light scattering in gases, liquids and solids. He and his team used monochromatic light – sunlight that had been filtered to leave only a single color – and found that a variety of different liquids indeed changed the color of the light. They first observed this in April 1923, but very weakly.

When light meets particles that are smaller than the light’s wavelength, the light spreads in different directions. This occurs when photons encounter molecules in a gas. In 1928 C.V.Raman discovered that a small portion of the scattered light acquires other wavelengths than that of the original light.

This is because some of the incoming photons’ energy can be transferred to a molecule, giving it a higher level of energy. His team experimented to find a particularly strong color change in light scattered by glycerol. They observed the effect in gases, crystals and glass. In Raman’s work the light scattered by liquids was polarized, which ruled out the possibility of fluorescence.

This phenomenon which came to be known as the Raman effect – a color change accompanied by polarization, had never been seen before. The inelastic scattering was a very strong confirmation of quantum theory.

(A) Blue light approaches a molecule, and then (B) Lower energy green light leaves the molecule.

This is inelastic scattering, i.e. the light has given some of its energy to the molecule, causing it to vibrate more strongly. Only about 1 in ten million photons undergoes inelastic scattering.

Raman Spectroscopy (1929): Raman showed that the energy of photons scattered inelastically serves as a ‘fingerprint’ for the substance the light is scattered from. Raman spectroscopy is now commonly used in chemical laboratories all over the world to identify substances. It is also used in medicine to investigate living cells and tissues, even detecting cancers without causing harm. Laser light rather than sunlight is used as the source of photons.

Work on acoustics: Raman worked on the acoustics of musical instruments. He worked out the theory of transverse vibration of bowed strings, on the basis of superposition of velocities. He was also the first to investigate the harmonic nature of the sound of Indian drums such as the tabla and mridangam. He also investigated the propagation of sound in whispering galleries.

Raman-Nath theory: Raman and his student, Nagendra Nath, provided the correct theoretical explanation for the acousto-optic effect (light scattering by sound waves), in a series of articles. Modulators, and switching systems based on this effect have enabled optical communication components based on laser systems.

Other investigations carried out by Raman were experimental and theoretical studies on the diffraction of light by acoustic waves of ultrasonic and hypersonic frequencies (published b/n 1934–1942) and those on the effects produced by X-rays on infrared vibrations in crystals exposed to ordinary light.

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