DOCSLIB.ORG

Remembering the Life of Satyendra Nath Bose

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Remembering the Life of Satyendra Nath Bose ISSN (Online) - 2349-8846 Remembering the Life of Satyendra Nath Bose AMITABHA BHATTACHARYA Amitabha Bhattacharya ([email protected]) is a retired IAS officer. Vol. 54, Issue No. 14, 06 Apr, 2019 1. Much of the information for this article has been obtained from the journal Science and Culture (January–February 2019), Kolkata. Editor-in-chief: Prof S C Roy, Guest editors for this special issue on “How Bose Statistics changed our Understanding of Matter”: Rabin Banerjee and Samit K Ray; and 2. Detailed accounts of 37 scientific papers of Bose are available in S N Bose: The Man and His Work (Part 1), S.N. Bose National Centre for Basic Sciences, Kolkata, 1994. Satyendra Nath Bose would have been 125-years-old on 1 January 2019. During our time as students in the turbulent 1960s in Calcutta, several stories about Satyendra Nath Bose's genius were circulated – some real and some coloured by imagination. We were told that he was among the few early scientists who understood the meaning and importance of Albert Einstein’s theories of relativity; that a teacher in his school awarded him 110 out of 100 in a paper and thought he would one day join the ranks of Karl Friedrich Gauss as a mathematician; that his university records were yet to be broken; that when Niels Bohr, during his lecture at Calcutta, got stuck with a problem, Bose instantly resolved it; and even that some students earned their PhDs based on scraps from his wastepaper basket! As distinct from the other two famous Boses (J C Bose who taught him at Presidency College and Debendra Mohan Bose who was a few years senior), S N Bose was essentially a theoretical, mathematical physicist. The eldest of the seven children of Amodini Bose and ISSN (Online) - 2349-8846 Surendranath Bose (who worked with the railways), Bose was born and educated in Calcutta. As a student, he stood first in Calcutta University. His illustrious classmates included Meghnad Saha who came second in both BSc and MSc examinations. Thereafter, Bose joined the newly established physics department of the university as a research scholar and lecturer (1917), then moved to the new University of Dacca (now Dhaka, in Bangladesh) as a Reader in 1921. Since he had not done a doctorate, Einstein’s recommendation helped him become a professor and head of the department there. He returned to Calcutta University in 1945. Science in Calcutta in the 1920s Eric Weiner in his best-selling book The Geography of Genius: A Search for the World’s Most Creative Places from Ancient Athens to Silicon Valley, writes how “Certain places, at certain times, produced a bumper crop of brilliant minds and good ideas,” and includes Calcutta (1840–1920) in the list of these places. After Bengal’s partition was annulled and when the capital was shifted to Delhi, the 1920s was the last decade perhaps, to have produced a flush of creativity in Calcutta. In the field of science, this period saw the emergence of C V Raman, S N Bose and Meghnad Saha, the likes of which has not happened in the country since then. Many factors must have contributed to such a flourishing environment—the stewardship of the university by Sir Ashutosh Mookerjee, a mathematician himself; the scientific climate having been created by the likes of J C Bose and P C Ray; and the urge for self-expression in a country reeling under colonial rule. Major breakthroughs like Saha’s equation of thermal ionisation (1920), Bose–Einstein (now, Bose) statistics (1924) and Raman effect (1928) have to be seen in this historical context. Bose, Einstein and their Collaborative Efforts Bose co-authored the first English translation of the original papers of Einstein and Hermann Minkowski as the Principle of Relativity (1919–20, with an introduction by P C Mahalanobis) with Saha, and published a few more. He wrote two papers in 1924 while working in Dacca. The most important one was titled “Planck’s Law and the Hypothesis of Light Quanta,” which was not published by the Philosophical Magazine of the Royal Society. But, Bose was so confident that he sent it with a personal, handwritten letter to Albert Einstein. It required the genius and insight of Einstein to appreciate the significance of this work. He translated it into German and sent it for publication in the prestigious journal Zeitschrift für Physik with a note that said, “In my opinion, Bose’s derivation of Planck formula constitutes an important advance. The method used here also yields the quantum theory of the ideal gas as I shall discuss elsewhere in more detail.” (Pais 1982). This became the basis of Bose statistics. In the area of quantum statistics, this “is one of two possible ways in which a collection of (non-interacting) indistinguishable particles may occupy a set of available discrete energy states,” (Encyclopaedia Britannica 1997) at thermodynamic equilibrium. The mathematical derivation by Bose was original, based on ISSN (Online) - 2349-8846 the concept of the “indistinguishability” of photons—the light quanta. Einstein translated Bose’s second paper also and got it published, but with a note of dissent. However, the noted physicist ECG Sudarshan (1994) wrote that “In these two papers done before the birth of quantum mechanics as we know today, Bose laid the foundations of a quantum theory of the electromagnetic field.” Bose’s third paper, sent to Einstein in 1925, remains unpublished and, sadly, it is untraceable. Particles following Bose statistics came to be known as bosons, as named by Paul Dirac (and particles following the other Fermi–Dirac statistics are known as fermions). Einstein developed Bose’s concept further, and extended it to monatomic ideal gases, and predicted what is known as the Bose–Einstein Condensation (BEC). BEC, a state of matter of a gas of bosons, diluted and cooled to near absolute zero temperature, is related to superfluidity and superconductivity. In an article titled “Bose- Einstein Condensation—SN Bose’s Legacy Lives On,” Wolfgang Ketterle of the Massachusetts Institute of Technology—one of the three winners of the Nobel Prize in 2001 for their experimental work on the subject—wrote that BEC “has changed the face of atomic physics. It is for atoms or matter waves what the laser is for photons: a macroscopically occupied quantum state. It was regarded as an elusive goal until it was discovered in 1995. Although BEC was immediately viewed as a major accomplishment, its impact has far exceeded expectations. Now more than 20 years later, there is no question that the field remains exciting. And maybe the best is yet to come.” (Ketterle 2019) During 1924–26, Bose visited Berlin and Paris for research work and interacted with Einstein and other leading physicists. Herman Mark of the Institute of Physics, Berlin remembered how, “… almost everything was done in German … Bose gave one of those seminars … That was based on his ideas about non-classical statistics of a system particularly of low temperature characteristics— and Nernst was sitting there, Einstein was there … and everyone interested in low temperature and statistics—and Planck was also there … Then Einstein said, ‘well I think this is one of the most worthwhile works of the last few years.’ He talked about it and asked a few questions and Bose answered the questions and then Nernst asked a few questions… In other words, it was a very sensational event on that day” (Mark 1974). According to Abraham Pais (1982), physicist and definitive biographer of Einstein, “The paper by Bose is the fourth and last of the revolutionary papers of the old quantum theory, the other three being by Planck, Einstein and Bohr.” Thus, Bose is rightly regarded as the originator of quantum statistics and an important figure behind quantum mechanics and quantum field theory. In the early 1950s, Bose also contributed a few important papers to unified field theory. ISSN (Online) - 2349-8846 Bose, the Nobel Prize and After Despite his pioneering contribution, Bose was not awarded a Nobel Prize. He was nominated a few times and leading scientists had felt that Bose had deserved one. Rajinder Singh (2017), physicist and historian of science, in the article, “The Ultimate Facts - SN Bose and the Missed Physics Nobel Prize,” records that the Nobel Committee asked its expert Oskar Klein in 1956 to evaluate his work. Taking note of Bose’s nomination for his work on quantum statistics and for his contribution to Einstein’s unified field theory later, Klein appreciated the former contribution as important but “not so distinguished as the work of other physicists” who won the prize. Furthermore, he commented about the latter that it “would even fit less to spirit for the Physics Nobel Prize,” since “It is on the mathematical contribution to Einstein’s long-standing attempt for a universal field theory—whose physical meaning as well as the whole Einsteinian program in any case, is still quite obscure.” As rightly observed by Singh, Bose’s case was not nominated in time and that the Nobel Committee had not been particularly in favour of theoretical physics. No wonder Einstein did not receive the prize, even for his most important work: the theory of relativity. Much later, Stephen Hawking also did not. Bose, however, never regretted the fact that he did not receive the Nobel Prize and was always content with the recognition that came his way. He was elected a Fellow of the Royal Society, and was awarded the Padma Vibhushan and was made a National Professor. He also presided over the Indian Science Congress, and after retirement from Calcutta University, served as the Vice-Chancellor for Visva-Bharati, Santiniketan.
Load more

Recommended publications
  • The Saga of Indian Scientists
    BOOK Review scientists, all of them were born before Independence, 25 of them in the 19th century. Hoariest among them is our spirited THE SAGA OF nationalist mathematician, Radhanath Sikdar, famous for measuring the height of Mt. Everest. He is also ‘one of the earliest pioneers of popular science writing in the country’. INDIAN SCIENTISTS He was born in 1813. By Vinod Varshney Most of these scientists were exposed to western scientific culture and conducted some of their important research, if not all, in the well-equipped labs abroad, but their mission had always been to develop science and technology in India. Treading in the footsteps of their seniors, the younger lot too resolutely took upon themselves to grapple with post- independence challenges to promote scientific and technological capabilities constrained with meagre infrastructural resources. They indeed laid a credible foundation of the much-needed science and technology base in the country which has today mushroomed into over 5,000 labs where approximately 5 lakh scientists work. The bio-sketches have been written by seasoned science writers and journalists who have deployed their ingenuity in presenting multiple facets of their scientific work, thinking and personality and also events that helped mould their outlook. But this has been done in a tiny space – only three pages per scientist. In such a niggardly space they could not have satiated readers’ hunger to know the complete complex scenario which existed in their time and blow by blow account of their vision Title: INDIAN SCIENTISTS and spirit. THE SAGA OF INSPIRED MINDS Most bio-piece scribblers have attempted to explore the Author: Biman Basu, Sukanya Datta, heart, soul and time of the scientists, making them pleasurable T.V.
    [Show full text]
  • D.M. Bose the Indian Who Missed the Nobel
    Short Feature MANAS PRATIM DAS D.M. Bose The Indian Who Missed the Nobel Initially, Debendra enrolled for a Thomson was his guide. In the same degree in engineering in Sibpore laboratory worked C.T.R. Wilson who Bengal Engineering College but a won the Nobel Prize for developing severe attack of malaria put an end to the cloud chamber that detected sub- his pursuit of engineering. At the atomic particles. suggestion of Rabindranath Tagore, the Now in Regener’s laboratory he Nobel laureate and a close friend of worked on the development of a new Jagadish, Debendra entered the type of Wilson Chamber for recording Presidency College to study Physics. the tracks of ionizing alpha and beta With a first class first he completed his particles from radioactive sources. His MA in Physics in 1906. Later, he went earlier training at the Cavendish to study in London and acquired both laboratory came in handy here. He was B.Sc. and ARCS diploma from the successful in photographing the tracks HIS year we celebrate the 125th University of London. of recoil protons produced during the birth anniversary of a great Returning home, he got an passage of fast moving alpha particles genius who made the country appointment in the City College as a in hydrogen filled chamber. The work proud with his path breaking lecturer. From there he moved to the helped in formulating a scheme for Tscientific work. Debendra Mohan Bose, newly built University College of collisions among such particles. Bose a silent worker and a strikingly Science at Rajabazar accepting the Rash also started photographing the recoil handsome figure, was honoured in Behari Ghosh professorship in 1914.
    [Show full text]
  • Debendra Mohan Bose Built the fi Rst Indigenous Cloud Formidable Infl Uence in Shaping His Life and Career
    NDIA I OF CIENTISTS S man of few words, unassuming, a silent worker and a strikingly SiSerious bbusinessi apart, young DebendraD b d was a versa lle A handsome fi gure is how people who knew Debendra Mohan sportsman too. He was one of the founders of the Spor ng Union Bose describe him. Yet today very few even know about, let alone Club and the captain of the club’s hockey team in 1905-06. While remember, the man who was honoured in India and recognised a student of the Presidency College he excelled in cycling, football abroad for pioneering researches in the fi eld of cosmic rays, and cricket. ar fi cial radioac vity and neutron physics. Debendra Mohan’s uncle J.C. Bose had by far the most Debendra Mohan Bose built the fi rst indigenous cloud formidable infl uence in shaping his life and career. It has been chamber to track ionizing radia ons way back in the 1920s. He is tacitly assumed during his boyhood that Debendra Mohan would also remembered as the scien st who more than once came close undergo training in science to enable him to carry on his uncle’s to making major breakthroughs which later won the Nobel Prize. pioneering researches. But fate intervened. Debendra’s father died If one were to talk about forma ve infl uences on young in 1901. Now it became necessary for him to take up a profession Debendra there would be no dearth of it. He had illustrious peers to support his family. A er he passed his F.A.
    [Show full text]
  • A Magazine Published by the Students of RKMVU Department of Physics
    Unmesh A magazine published by the students of RKMVU Department of Physics Department of Physics School of Mathematical Sciences Ramakrishna Mission Vivekananda University Belur Math, Howrah August, 2016 Editorial team Editor : Sucheta Datta, Aniruddha Chakraborty Cover design : Sumitava Kundu, Prof Ashik Iqubal E-magazine Compiler : Prof Ashik Iqubal, Kartik Panda Typing & Editing : Arnab Seal, Arnab Bera, Rahul Karmakar, Subhankar Mukherjee, Abhik Ghosh Moulick, Pradeepta Kumar Ghose, Arpan Chatterjee, Ayan Adhikary, Joy Ganguly, Shuvranil Maity Encouragement: Prof. Debashis Gangopadhyay and all faculty members Gratitude : Srimat Swami Atmapriyananda Maharaj A Compiled using LTEX Editorial “ Reading maketh a full man, conference a ready man and writing an exact man. ” When the mighty Sun retreats under the dark cloak of Clouds, and Rain quenches the thirst of the scorched Earth, Nature engages herself in the art of adding life and colour to her Creations. The human mind gets engrossed in singing in praise of Beauty. The eye finds ecstasy in observing pearl drops resting on the leaves or dangling from the overhead electric wires. Inspite of all the muddy affairs, the Bengalis have yet another reason to cheer up in the monsoon – their gastronomical delight of ‘ilish’. It is in this season of happiness and hope that we have come forward with the idea of assembling our pen, paints, paper and imagination in the mould of a magazine. We wanted to look beyond the customary, monochromatic schedule of classes, lab-work, projects and assignments. We desired to re-invent ourselves. We wished to embark upon a journey through the lanes of memories, through the thorns of reality, through the stream of dreams; a journey to the land of bliss – where letters, numbers and symbols weave the magic carpet of Joy, where the artist and the audience interact with one another, where exchange of ideas is mediated by the particles named ‘Pages’.
    [Show full text]
  • Women in High Energy Physics in Post Independent India
    Physics News Women in High Energy Physics in Post Independent India Bindu A. Bambah School of Physics, University of Hyderabad, Hyderabad, Telangana 500046, India E-mail: [email protected] Bindu Bambah did her Ph.D. from the University of Chicago in 1983 under the guidance of the Nobel Laureate Prof. Y. Nambu. Her research is focussed on high-energy physics (theory and experiment) and non-linear dynamics. She was awarded the UNESCO, ROSTCA Young Scientists Award for South Asia in 1991. She is currently leading the University of Hyderabad group in the Experimental neutrino program at Fermilab, USA. Prof. Bambah has started undergraduate courses on scientific methodology and given lectures to school students on the importance of scientific thinking in all spheres of life. She also works on methods of inducting and training women to assume leadership roles in the physical sciences. Abstract In this article, I will examine the status of gender parity in post-independence India by looking at women's lives in High energy physics. From the first-hand experiences of some of the pioneering women in the field, I hope to examine whether gender bias is a real threat in high-energy physics. Introduction unrecognized in India until this book was published. No national award or fellowship came her way, and the scientific Gender Bias in Particle Physics has been thrust into the community largely ignored her. Her life has given a spotlight by the incendiary comments made by theoretical resurgence of debates on the lack of credit given to women in physicist Alessandro Strumia. At a workshop on gender in Physics and the skewed credit given to men in particle physics.
    [Show full text]
  • A Journey to the Scientific World
    A Journey to the Scientific World Ramesh C. Samanta JSPS post doctoral Fellow Chubu University, Japan June 15, 2016 India: Geographical Location and Description Total Area: 32,87,364 km2 (No. 7 in the world) Population: 1,251,695,584 (2015, No. 2 in the world) Capital: New Delhi Time Zone (IST): GMT + 5.30 hrs Number of States and Union Territories: 29 States and 7 Union Territories India: Languages and Religions In the history India has experienced several great civilizations in different part of it and they had different languages. This resulted several different languages: Majority from Indo Aryan civilization, Dravid civilization. Major Languages: Hindi and English Official Languages: Total 23 languages with countless dialect India is well known for its diversity of religious beliefs and practices. All the major religions of the world like Hinduism, Sikhism, Buddhism, Jainism, Islam and Christianity are found and practiced in India with complete freedom Weather in India Extreme climate of being tropical country !!! Hot summer (Temperature goes up to 50 oC) Windy monsoon (average rainfall 1000 mm per year) Pleasant Autumn Snowy winter in Northan part of India Indian Food Indian Spices Indian Curry North Indian Food South Indian Food Tourist Attractions in India Taj Mahal, Agra The Ganges, Varanasi Victoria memorial Hall , Kolkata Sea Beach, Goa India’s Great Personalities Netaji Subhas Jawaaharlal Rabindranath Mahatma Gandhi Chandra Bose Nehru Tagore Swami Sarojini Naidu Vivekananda B. R. Ambedkar Sri Aurobindo Indian Nobel Laureates Rabindranath Tagore C. V. Raman Har Gobind Khorana Nobel Prize in Nobel Prize in Physics, 1930 Nobel Prize in Medicine, Literature, 1913 1968 Mother Teresa Venkatraman Ramakrishnan Kailash Satyarthi Nobel Peace Prize 1979 Nobel Prize in chemistry 2009 Nobel Peace Prize 2014 Indian Scientists Sir Jagadish Chandra Bose (1858-1937): Known for pioneering investigation of radio and microwave optics and plant biology.
    [Show full text]
  • 31 Indian Mathematicians
    Indian Mathematician 1. Baudhayana (800BC) Baudhayana was the first great geometrician of the Vedic altars. The science of geometry originated in India in connection with the construction of the altars of the Vedic sacrifices. These sacrifices were performed at certain precalculated time, and were of particular sizes and shapes. The expert of sacrifices needed knowledge of astronomy to calculate the time, and the knowledge of geometry to measure distance, area and volume to make altars. Strict texts and scriptures in the form of manuals known as Sulba Sutras were followed for performing such sacrifices. Bandhayana's Sulba Sutra was the biggest and oldest among many Sulbas followed during olden times. Which gave proof of many geometrical formulae including Pythagorean theorem 2. Āryabhaṭa(476CE-550 CE) Aryabhata mentions in the Aryabhatiya that it was composed 3,600 years into the Kali Yuga, when he was 23 years old. This corresponds to 499 CE, and implies that he was born in 476. Aryabhata called himself a native of Kusumapura or Pataliputra (present day Patna, Bihar). Notabl e Āryabhaṭīya, Arya-siddhanta works Explanation of lunar eclipse and solar eclipse, rotation of Earth on its axis, Notabl reflection of light by moon, sinusoidal functions, solution of single e variable quadratic equation, value of π correct to 4 decimal places, ideas circumference of Earth to 99.8% accuracy, calculation of the length of sidereal year 3. Varahamihira (505-587AD) Varaha or Mihir, was an Indian astronomer, mathematician, and astrologer who lived in Ujjain. He was born in Avanti (India) region, roughly corresponding to modern-day Malwa, to Adityadasa, who was himself an astronomer.
    [Show full text]
  • Stamps of India - Commemorative by Prem Pues Kumar [email protected] 9029057890
    E-Book - 26. Checklist - Stamps of India - Commemorative By Prem Pues Kumar [email protected] 9029057890 For HOBBY PROMOTION E-BOOKS SERIES - 26. FREE DISTRIBUTION ONLY DO NOT ALTER ANY DATA ISBN - 1st Edition Year - 1st May 2020 [email protected] Prem Pues Kumar 9029057890 Page 1 of 76 Nos. YEAR PRICE NAME Mint FDC B. 1 2 3 1947 1 21-Nov-47 31/2a National Flag 2 15-Dec-47 11/2a Ashoka Lion Capital 3 15-Dec-47 12a Aircraft 1948 4 29-May-48 12a Air India International 5 15-Aug-48 11/2a Mahatma Gandhi 6 15-Aug-48 31/2a Mahatma Gandhi 7 15-Aug-48 12a Mahatma Gandhi 8 15-Aug-48 10r Mahatma Gandhi 1949 9 10-Oct-49 9 Pies 75th Anni. of Universal Postal Union 10 10-Oct-49 2a -do- 11 10-Oct-49 31/2a -do- 12 10-Oct-49 12a -do- 1950 13 26-Jan-50 2a Inauguration of Republic of India- Rejoicing crowds 14 26-Jan-50 31/2a Quill, Ink-well & Verse 15 26-Jan-50 4a Corn and plough 16 26-Jan-50 12a Charkha and cloth 1951 17 13-Jan-51 2a Geological Survey of India 18 04-Mar-51 2a First Asian Games 19 04-Mar-51 12a -do- 1952 20 01-Oct-52 9 Pies Saints and poets - Kabir 21 01-Oct-52 1a Saints and poets - Tulsidas 22 01-Oct-52 2a Saints and poets - MiraBai 23 01-Oct-52 4a Saints and poets - Surdas 24 01-Oct-52 41/2a Saints and poets - Mirza Galib 25 01-Oct-52 12a Saints and poets - Rabindranath Tagore 1953 26 16-Apr-53 2a Railway Centenary 27 02-Oct-53 2a Conquest of Everest 28 02-Oct-53 14a -do- 29 01-Nov-53 2a Telegraph Centenary 30 01-Nov-53 12a -do- 1954 31 01-Oct-54 1a Stamp Centenary - Runner, Camel and Bullock Cart 32 01-Oct-54 2a Stamp Centenary
    [Show full text]
  • CDA WEB UPDATE.Xlsx
    7TH CPC (CDA) REVISION UPTO 05.10.2017 SL.NO.P-NO NAME DESIGNATION 1 572 BASANTI GANGULY W/O PARESH NATH LSG CLERK 2 803 SUSHIL CHANDRA NANDY LINEMAN 3 817 RAMA GHOSH T.O. 4 895 ASHIM BANERJEE DEP 5 948 CHITTARANJAN DEB HG TECH 6 986 DASARATHI GHOSAL TECH 7 986 DASARATH GHOSAL TECHNICIAN 8 987 DHIRENDRA NATH MULLICK LSG CLERK 9 991 YOGOMAYA SARKAR W/O KALIPADA WIREMAN 10 995 DEBJANI BHATACHERJEE W/O NETAI PADA HG TECH 11 997 SARASWATI DEVI DRIVER 12 1017 SUNIT KUMAR BANERJEE DEP 13 1017 SUNIT KUMAR BANERJEE DEP 14 1107 SANAT KR. MUKHERJEE SS 15 1120 UMESH CHANDRA MAJUMDER JAMADAR 16 1120 UMESH CHANDRA MAJUMDER J/D 17 1332 LT. KESHAB LAL ROY SG W/M 18 1524 KAILASH CHAND JAIN DEP 19 1655 PARWATI DEVI W/O LT.VISWANATH ROY SG.JE 20 1686 NAREN CHANDRA MONDAL TSO 21 1727 SUBRATA KR.SAHA UDC 22 1870 BALARAM BHATTACHARYYA S.G.T.I. 23 2016 NIRMALENDU DUTTA COWDHURY SS 24 2040 NEMAI LAL BANERJEE SS 25 2042 AJIT KUMAR BOSE S.G CARETAKER 26 2043 AMULYA CH BANERJEE SG.AEA 27 2045 ANUPAMA DUTTA SUPVR 28 2046 NARAYAN CH SEN C/J 29 2048 AMIR HOSSAIN H.G W/MAN 30 2052 RABINDRA CHANDRA NANDY T.S.O. 31 2053 BHAKTILAL SENGUPTA SUPV 32 2055 SUNIL CH GHOSH T.S.O. 33 2057 NIRANJAN DAS L.I. 34 2058 DIPALI MUKHERJEEW/O SUKHENDU SS 35 2058 SUKENDU MUKHERJEE SS 36 2059 INDU BHUSAN HALDER JAMADAR 37 2063 PUSPA RANI BAIRAGI SUPVR 38 2065 RENUKA GUHA UDC 39 2066 MUKTI RANJAN DEY C/S 40 2068 MANINDRA NATH DASGUPTA DEP 41 2070 BISWANATH BHATTACHARYYA SS 42 2071 SUNIL KUMAR SEN SS 43 2072 MANARANJAN BARUA FERRO PRINTER 44 2073 SATISH CH DEY RECORD KEEP 45 2075 AMAL KUMAR SARKAR SUPVR 46 2076 NIRMAL CH SIL SG C/S 47 2078 MADHU SUDAN BHATTACHARJEE SIRCAR 48 2080 GOBINDA CH BESRA R/M Page 1 of 25 SL.NO.P-NO NAME DESIGNATION 49 2083 SUSHIL KR GHOSH C.O.
    [Show full text]
  • Purnangshu Kumar Roy and the S.N. Bose Tradition in Theoretical Physics by Charles Wesley Ervin Email: Wes [email protected] August, 2016
    Purnangshu Kumar Roy and the S.N. Bose Tradition in Theoretical Physics By Charles Wesley Ervin Email: [email protected] August, 2016 INTRODUCTION This year Calcutta University marks a historic mile- stone. One hundred years ago the university started teaching physics courses at the newly created College of Science and Technology. Three of the most brilliant Indian physicists of the twentieth century began their careers there. C.V. Raman, the first Palit Professor of Physics, was awarded the Nobel Prize in 1930 for his work on light scattering. The two young lecturers, Meghnad Saha and Satyendra Nath Bose, made major breakthroughs even sooner – Saha in 1920 for deriving the equation that accounts for the spectral classifica- tion of stars and Bose in 1924 for inventing the statisti- cal model that validated Einstein’s hypothesis of light quanta (the Bose Statistics). But this “golden age” of Calcutta physics was P. K. Roy (right) with Satyendra Nath Bose in London, short-lived. Saha went to Allahabad University in March, 1958. Roy studied theoretical physics with Bose for 1923, Bose decamped to Dacca University in 1924, ten years at Calcutta University and then earned his PhD at and Raman left in 1932 to become the first Indian di- Imperial College under Abdus Salam. This photo was taken when Bose came to London to be inducted Fellow of the rector of the Indian Institute of Science in Bangalore. Royal Society. Courtesy of Anjana Srivastava. After the war, however, there was something of a re- naissance. Bose returned in 1945 and gathered a team of talented research workers in the Physics Depart- ment and the Khaira Lab.
    [Show full text]
  • IB ACIO 2014-15 Solved Question Paper
    IB ACIO 2014-15 Solved Question Paper 1. Curcuma longa is the scientific name of which spice? A. Cumin B. Cloves C. Turmeric D. Coriander Answer: C 2. Bones found in the hands and feet as the percentage of total number of bones in the body of an adult human being is nearly equal to A. 20% B. 30% C. 40% D. 50% Answer: D 3. Europeans are believed to have brought potatoes to India in the 18th century. Which region of the world is believed to be the origin of potato cultivation? A. Eastern Ghana B. Southern Peru C. Portugal SPLessons D. West Indies Answer: A 4. Oymyakon is generally considered the coldest inhabited area on Earth. Which country Oymyakon is located . A. Mongolia B. Russia C. Greenland D. Iceland Answer: B 5. Which gland in the human body is also known as the third eye A. Pineal B. Pituitary C. Mammary D. Tear gland Answer: A 6. Leukaemia is a group of cancers that usually begins it the bone marrow and results in high numbers of which abnormal cells A. White blood cells B. Red blood cells C. Platelets D. All of these Answer: A SPLessons 7. During an earthquake, two places ‘A’ and ‘B’ record its intensity in Richter scale as 4.0 and 6.0 respectively. IN absolute terms, the ratio of intensity of the earthquake at ‘A’ to that of ‘B’ is: A. 2:3 B. 7:8 C. 141:173 D. 1:100 Answer: D 8. On a cool day in January, the temperature at a place fell below the freezing point and was recorded as -40° Centigrade.
    [Show full text]
  • Journal of 200Th Session
    FRIDAY, THE 12TH DECEMBER, 2003 (The Rajya Sabha met in the Parliament House at 11-00 a.m.) 11-00 a.m. 1. Reference by Chair The Chairman made a reference regarding the Second Anniversary of terrorist attack on the Parliament Building on the 13th December, 2001. The House observed silence, all Members standing, as a mark of respect to the memory of those who lost their lives in the tragedy. 11-03 a.m. 2. Starred Questions The following Starred Questions were orally answered:- Starred Question No.163 regarding Animal welfare schemes. Starred Question No.164 regarding History textbooks for class XII. Starred Question No.165 regarding Food for work programme in drought affected areas. Answers to remaining Starred Question Nos. 161, 162 and 166 to 180 were laid on the Table. 3. Unstarred Questions Answers to Unstarred Question Nos. 1092 to 1232 were laid on the Table. 12 Noon 4. Papers Laid on the Table Dr. Murli Manohar Joshi (Minister of Human Resource Development, Minister of Science & Technology and Minister of Ocean Development) laid on the Table a copy each (in English and Hindi) of the following papers:— (a) Fifth Annual Report and Accounts of the Indian National Centre for Ocean Information Services, Hyderabad, for the year 2002-2003, together with the Auditor's Report on the Accounts. (b) Review by Government on the working of the above Centre. RAJYA SABHA Shri Nitish Kumar (Minister of Railways) laid on the Table a copy each (in English and Hindi) of the following papers, under sub-section (1) of section 619A of the Companies Act, 1956:— (a) Annual Report and Accounts of the Mumbai Railway Vikas Corporation Limited, Mumbai, for the year 2002-2003, together with the Auditor's Report on the Accounts and the comments of the Comptroller and Auditor General of India thereon.
    [Show full text]