Scientist jagadish chandra bose biography of mahatma
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His major contribution in the field of biophysics was the demonstration of the electrical nature of the conduction of various stimuli (wounds, chemical agents) in plants, which were earlier thought to be of chemical in nature. Bose was never awarded a Nobel Prize, despite his work on particle statistics, which clarified the behavior of photons and "opened the door to new ideas on statistics of Microsystems that obey the rules of quantum theory," according to physicist Jayant Narlikar, who said Bose's finding was one of the top 10 achievements of 20th-century Indian science.
But Bose himself responded simply when asked how he felt about the Nobel Prize snub: "I have got all the recognition I deserve."
The Indian government honored Bose in 1954 with the title Padma Vibhushan, the second-highest civilian award in India.
ISBN 0195648749.
Bose was not a person to quarrel with circumstances but confronted them and dominated over them. Bose devised another instrument called ‘Coherer’, for detecting the radiowaves.
Prior to his death in 1937, Bose set up the Bose Institute at Calcutta. He returned to India in 1884 after completing a B.Sc. For nearly ten years, he remained a pioneer in the field of wireless wave research.
Contributions to Science
In 1887, Bose married Abala, a renowned feminist and social worker.
Science Fiction
In 1896, Bose wrote Niruddesher Kahini, the first major work in Bangla Science Fiction. It was because of my childhood friendship with them that I could never feel that there were "creatures" who might be labeled "low-caste," I never realized that there existed a "problem" common to the two communities, Hindus and Muslims.
Bose joined the Hindu College and then St.
Xavier’s College (an institution) in Calcutta in 1869. Subsequently, Lodge pursued Hertz’s work and delivered a commemorative lecture in June 1894, a few months after Hertz’s death and published it in book form. 14-25. He is credited with invention of the first wireless detection device and discovery of millimeter-length electromagnetic waves, and he is considered a pioneer in the field of biophysics.
In fact, he continued his teaching assignment for three years without any salary.[8] Finally, both the Director of Public Instruction and the Principal of the Presidency College fully realized the value of Bose’s skill in teaching and also his lofty character. Proc. In addition, based on his principles, he was reluctant to patent his inventions and was willing to forgo a salary that was deliberately demeaning.
From the manuscript submitted to the Royal Society (but never published), the thesis stated that “there is no discontinuity between the living and the nonliving.” With such research, Bose began to draw connections between the responsive behavior of living matter, such as muscle, and inanimate matter like metal. Nobody expected to be favored with a research laboratory or research grant.
In 1954, Pearson and Brattain gave priority to Bose for the use of a semi-conducting crystal as a detector of radio waves. Further work at millimeter wavelengths was almost nonexistent for nearly 50 years. He influenced many later Indian physicists, including Satyendra Bose (no relation) and Meghnad Saha, who later went on to be influential figures in twentieth century physics.
American Journal of Botany 85:897–909.