How Indonesian People Get Nobel Prize in The Future
Central for Research and Development for Winning
Central for Research and Development for Winning
Nobel Prize in Physics at Indonesia
Nobel Fisika Indonesia
(Belajar Kepada Profesor Rontgen)
"Saya Tidak Berpikir, Saya Bereksperiment"
~Rontgen~
("I didn't think; I experimented.")
Nobel Fisika Indonesia
(Belajar Kepada Profesor Rontgen)
"Saya Tidak Berpikir, Saya Bereksperiment"
~Rontgen~
("I didn't think; I experimented.")
"Pengakuan terhadap pelayanan yang luar biasa yang telah dilakukannya dalam menemukan sinar Röntgen yang dinamai atas dirinya."
Wilhelm Conrad Röntgen (27 Maret 1845 – 10 Februari 1923) ialah fisikawan Jerman yang merupakan penerima pertama Penghargaan Nobel dalam Fisika, pada tahun 1901, untuk penemuannya pada sinar-X, yang menandai dimulainya zaman fisika modern dan merevolusi kedokteran diagnostik.
Rontgen belajar di ETH Zurich dan kemudian guru besar fisika di Universitas Strasbourg (1876-79), Giessen (1879-88), Wurzburg (1888-1900), dan Munich (1900-20). Penelitiannya juga termasuk karya pada elastisitas, gerak pipa rambut pada fluida, panas gas tertentu, konduksi panas pada kristal, penyerapan panas oleh gas, dan piezoelektrisitas.
Wilhelm Röntgen | |
---|---|
Born | Wilhelm Conrad Röntgen 27 March 1845 Lennep, Prussia |
Died | 10 February 1923 (aged 77) Munich, Germany |
Nationality | German |
Fields | Physics |
Institutions | University of Strassburg Hohenheim University of Giessen University of Würzburg University of Munich |
Alma mater | ETH Zurich University of Zürich |
Doctoral advisor | August Kundt |
Doctoral students | Herman March Abram Ioffe |
Known for | X-rays |
Notable awards | Nobel Prize in Physics (1901) |
Presentation Speech
Presentation Speech by the former Rector of the National Archives C.T. Odhner, President of the Royal Swedish Academy of Sciences, on December 10, 1901
Your Royal Highnesses, Ladies and Gentlemen.
The Royal Swedish Academy of Sciences received from Alfred Nobel the privilege of awarding two of the great Prizes which he founded in his will - the Prizes in those branches of Science which lay nearest his heart - those in Physics and Chemistry. Now that the Royal Academy of Sciences has received from its Committees their expert opinion on the suggestions sent in, as well as their own suggestions, it has made its decision, and as current President I am here to make it known.
The Academy awarded the Nobel Prize in Physics to Wilhelm Conrad Röntgen, Professor in the University of Munich, for the discovery with which his name is linked for all time: the discovery of the so-called Röntgen rays or, as he himself called them, X-rays.
These are, as we know, a new form of energy and have received the name "rays" on account of their property of propagating themselves in straight lines as light does. The actual constitution of this radiation of energy is still unknown. Several of its characteristic properties have, however, been discovered first by Röntgen himself and then by other physicists who have directed their researches into this field.
And there is no doubt that much success will be gained in physical science when this strange energy form is sufficiently investigated and its wide field thoroughly explored. Let us remind ourselves of but one of the properties which have been found in Röntgen rays; that which is the basis of the extensive use of X-rays in medical practice.
Many bodies, just as they allow light to pass through them in varying degrees, behave likewise with X-rays, but with the difference that some which are totally impenetrable to light can easily be penetrated by X-rays, while other bodies stop them completely. Thus, for example, metals are impenetrable to them; wood, leather, cardboard and other materials are penetrable and this is also the case with the muscular tissues of animal organisms.
Now, when a foreign body impenetrable to X-rays, e.g. a bullet or a needle, has entered these tissues its location can be determined by illuminating the appropriate part of the body with X-rays and taking a shadowgraph of it on a photographic plate, whereupon the impenetrable body is immediately detected. The importance of this for practical surgery, and how many operations have been made possible and facilitated by it is well known to all. If we add that in many cases severe skin diseases, e.g. lupus, have been successfully treated with Röntgen rays, we can say at once that Röntgen's discovery has already brought so much benefit to mankind that to reward it with the Nobel Prize fulfils the intention of the testator to a very high degree.
These are, as we know, a new form of energy and have received the name "rays" on account of their property of propagating themselves in straight lines as light does. The actual constitution of this radiation of energy is still unknown. Several of its characteristic properties have, however, been discovered first by Röntgen himself and then by other physicists who have directed their researches into this field.
And there is no doubt that much success will be gained in physical science when this strange energy form is sufficiently investigated and its wide field thoroughly explored. Let us remind ourselves of but one of the properties which have been found in Röntgen rays; that which is the basis of the extensive use of X-rays in medical practice.
Many bodies, just as they allow light to pass through them in varying degrees, behave likewise with X-rays, but with the difference that some which are totally impenetrable to light can easily be penetrated by X-rays, while other bodies stop them completely. Thus, for example, metals are impenetrable to them; wood, leather, cardboard and other materials are penetrable and this is also the case with the muscular tissues of animal organisms.
Now, when a foreign body impenetrable to X-rays, e.g. a bullet or a needle, has entered these tissues its location can be determined by illuminating the appropriate part of the body with X-rays and taking a shadowgraph of it on a photographic plate, whereupon the impenetrable body is immediately detected. The importance of this for practical surgery, and how many operations have been made possible and facilitated by it is well known to all. If we add that in many cases severe skin diseases, e.g. lupus, have been successfully treated with Röntgen rays, we can say at once that Röntgen's discovery has already brought so much benefit to mankind that to reward it with the Nobel Prize fulfils the intention of the testator to a very high degree.
From Nobel Lectures, Physics 1901-1921, Elsevier Publishing Company, Amsterdam, 1967
See also
- Backscatter X-ray
- Fluoroscopy
- Geiger counter
- High energy X-rays
- N-ray
- Neutron radiation
- Radiography
- Radiologic technologist
- Radiology
- Resonant inelastic X-ray scattering (RIXS)
- Small angle X-ray scattering (SAXS)
- X-ray absorption spectroscopy
- X-ray astronomy
- X-ray crystallography
- X-Ray filters
- X-ray machine
- X-ray marker
- X-ray microscope
- X-ray nanoprobe
- X-ray optics
- X-ray vision
- X-ray welding
Sumber:
1. Wikipedia
2. Nobel Prize Org.
Ucapan Terima Kasih:
Ucapan Terima Kasih:
1. DEPDIKNAS Republik Indonesia
2. Kementrian Riset dan Teknologi Indonesia
3. Lembaga Ilmu Pengetahuan Indonesia (LIPI)
4. Akademi Ilmu Pengetahuan Indonesia
5. Tim Olimpiade Fisika Indonesia
Disusun Ulang Oleh:
Arip Nurahman
Pendidikan Fisika, FPMIPA, Universitas Pendidikan Indonesia
&
Follower Open Course Ware at MIT-Harvard University, USA.
Semoga Bermanfaat dan Terima Kasih