Indian physicist
An Indian physicist is a scientist specializing in the field of physics who is connected to Indian origin by nationality, birth, heritage, or significant professional contribution within or outside the country. India has a rich and continuing legacy of producing brilliant minds who have made fundamental contributions to the world of physics. From the quantum realm to the vast expanse of the cosmos, Indian physicists have left an indelible mark on our understanding of the universe. Their pioneering work has garnered international acclaim, including the Nobel Prize, as well as laid the foundation for India's scientific and technological advancements. Some modern prominent Indian physicists are Sir C V Raman, Homi Jehangir Bhabha, Satyendra Nath Bose, Meghnad Saha, Subrahmanyan Chandrasekhar, Jayant V Narlikar, etc.
History
In the Indian subcontinent, study of physical world can be traced since ancient period. In ancient period, Nyaya and schools of thought were investigating natural laws through philosophical debates and discussions. In mediaeval period, Aryabhatta, , and ,etc, tried to investigate the laws of nature through experimental demonstrations and mathematical calculations.
In 19th century, Jagdish Chandra Bose was the first notable Indian physicist, who started experimental studies of ultra-short electromagnetic waves. He was the pioneer of the experimental studies of the ultra-short electromagnetic waves also called microwaves having wavelengths ranging to millimetres. He started his experimental studies on microwaves in the year 1890. In his experiments, he generated and detected them over distances of a mile. His experiments were conducted a year or more before the experiments of Marconi on longer wavelength radio waves.
In the 20th century, C V Raman was the prominent Indian physicist known for his work Raman effect in the field of light scattering. In 1930, he was awarded with Nobel prize for his contribution in the field of physics. Similarly Satyendra Nath Bose was other prominent Indian physicist who collaborated with the German physicist Albert Einstein and developed the foundation of the Bose - Einstein quantum statistics. A class of sub-atomic particle called Boson was coined after his name by the English physicist Paul Dirac to commemorate his contribution in the field of physics.
In 1920, the Indian physicist Meghnad Saha contributed to the theory of thermal ionization. He derived an equation known as Saha ionization equation for the theory of thermal ionization. The equation has its application in the study of stellar spectra.
History
In the Indian subcontinent, study of physical world can be traced since ancient period. In ancient period, Nyaya and schools of thought were investigating natural laws through philosophical debates and discussions. In mediaeval period, Aryabhatta, , and ,etc, tried to investigate the laws of nature through experimental demonstrations and mathematical calculations.
In 19th century, Jagdish Chandra Bose was the first notable Indian physicist, who started experimental studies of ultra-short electromagnetic waves. He was the pioneer of the experimental studies of the ultra-short electromagnetic waves also called microwaves having wavelengths ranging to millimetres. He started his experimental studies on microwaves in the year 1890. In his experiments, he generated and detected them over distances of a mile. His experiments were conducted a year or more before the experiments of Marconi on longer wavelength radio waves.
In the 20th century, C V Raman was the prominent Indian physicist known for his work Raman effect in the field of light scattering. In 1930, he was awarded with Nobel prize for his contribution in the field of physics. Similarly Satyendra Nath Bose was other prominent Indian physicist who collaborated with the German physicist Albert Einstein and developed the foundation of the Bose - Einstein quantum statistics. A class of sub-atomic particle called Boson was coined after his name by the English physicist Paul Dirac to commemorate his contribution in the field of physics.
In 1920, the Indian physicist Meghnad Saha contributed to the theory of thermal ionization. He derived an equation known as Saha ionization equation for the theory of thermal ionization. The equation has its application in the study of stellar spectra.
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