Extractions: Call Number: MS C 94 Contains notes, correspondence, and clippings pertaining to cholera and tuberculin. Jacobi is referred to as the father of pediatrics, opening the first children's clinic at the New York Medical College in 1860. 2. Account of the yellow fever of 1794 as it appeared in Baltimore ... in a series of letters to Dr. Benjamin Rush / Thomas Drysdale, 1794. Drysdale, Thomas. Rush, Benjamin. Call Number: MS B 76 Manuscript is prefaced with an autographed letter from Dr. Rush to John Redman Coxe, dated July 31, 1804, transmitting ms. for publication in the Philadelphia Medical Museum. 3. AIDS files from the Public Health Service, Office of the Surgeon General. United States. Public Health Service. Office of the Surgeon General.
Extractions: Machine-readable finding aid encoded by John P. Rees Collection Number: MS C 245a Creator Heidelberger, Michael, b. 1888 Title Michael Heidelberger Papers Dates: 1901-1990 (bulk 1940-1975) Quantity: 22 linear feet (38 boxes) Abstract: Michael Heidelberger (1888-1991) is known as one of the founders of quantitative immunochemistry, and in the course of his career studied, among others, bacterial polysaccharides (particularly pneumococcal), as well as the immunochemistry of proteins, antibodies, and antigens. The papers deal primarily with Heidelberger's career as a teacher, researcher, and active member of the scientific community. In 1927, he left the Rockefeller Institute and moved to Mt. Sinai Hospital where he was both chemist to the hospital and a researcher. From 1928 to 1956, he worked for the Columbia University Medical Center was he continued his work as both a researcher and an instructor. In 1955, Heidelberger retired from Columbia and moved to the Institute of Microbiology at Rutgers University, where his research and teaching work continued. After nine years, he moved to the New York University School of Medicine, where he remained until his death. Heidelberger never really retired and was active in his field for nearly 80 years. In 1916, Heidelberger married Nina Tachau (1889-1946). They had one son, Charles (1920-1983) namesake of Heidelberger's younger brother Charles (1890-1914). Nina Tachau Heidelberger, an active member of the American Association for the United Nations and the League of Women Voters, died of cancer in 1946. In 1956, Heidelberger married Charlotte Rosen, who died in 1988.
Alfred Nobel: A Biography Some of the More Than 650 nobel Prize Winners (19011996). Peace. 1915Richard martin willstatter for his research on chlorophyll. Physics. http://more.abcnews.go.com/sections/world/nobel_biography/
Extractions: Nobel Prize Winners (1901-1996) Peace Carlos Felipe Ximenes Belo and Jose Ramos-Horta, East Timor Yasser Arafat, Shimon Peres and Yitzhak Rabin, the Middle East Nelson Mandela and Fredrik Willem De Klerk, South Africa Aung San Suu Kyi, Burma The Dalai Lama, Tibet Elie Wiesel, U.S. Desmond Tutu, South Africa Mother Teresa, India Henry Kissinger, U.S. and Le Duc Tho, Vietnam Martin Luther King Jr., U.S. Thomas Woodrow Wilson, U.S. Theodore Roosevelt, U.S. Literature Wislawa Szymborska, Poland Toni Morrison, U.S. Naguib Mahfouz, Egypt Pablo Neruda, Chile Aleksandr Solzhenitsyn, U.S.S.R. Jean-Paul Sartre, France John Steinbeck, U.S. Boris Pasternak, U.S.S.R. Ernest Hemingway, U.S. William Faulkner, U.S. Pearl Buck, U.S.
Famous Scientists Georges Urbain (18721938). richard willstatter (1872-1942). Archer JohnPorter martin (1910- ). richard Laurence Millington Synge (1914-1994). http://www.nidlink.com/~jfromm/elements/history.htm
Extractions: Famous Scientists Thales of Miletus (638-548 B.C.) - Greek philosopher; developed theory of matter based upon water. Heraclitus (c.540-475 B.C.) Pythagoras (581-497 B.C.) - Greek philosopher and mathematician; held that numbers were basic to matter; the Pythagorean Theorem is named for his geometric formulation; developed atomic theory; students of his philosophy emphasized geometrical form as a basic property of atoms; developed mathematical relationships which led to musical harmony. Empedocles (c.490-c.430 B.C.) Socrates (470-399 B.C.) - Greek philosopher; emphasized the study of human nature in relationship to society; influence the growth of science through standards for clear definitions and classifications, for logic and order, and for prudent skepticism. Democritus of Abdera (460-370 B.C.) - Greek philosopher; developed atomic theory; elaborated idea that matter consisted of atoms having physical size and shape which constantly moved in a void and interacted in different ways; Greek word atoma means indivisible. Leucippus (c.450 B.C.)
Famous Scientists Georges Urbain (18721938). richard willstatter (1872-1942). Philip Hauge Abelson(1913- ). martin D. Kamen (1913- ). richard Laurence Millington Synge (1914-1994). http://www.nidlink.com/~jfromm/history.htm
Extractions: Famous Scientists Thales of Miletus (638-548 B.C.) - Greek philosopher; developed theory of matter based upon water. Heraclitus (c.540-475 B.C.) - Greek philosopher; first of the Greeks to develop a theory of the human soul; he praised its creative resources and spoke of the importance of self-exploration; he spoke of the logos that is common to all and said that the universe is ruled by logos; he always urged that close attention be given to the polarites and concealed structures emodied in language. His famous claim that an idividual can and cannot step into the same river twice reveals an interest in criteria of unity and identity; even though all material constituents have undergone change, it is still, in a sence, the same river. Preoccupied with change, he declared that fire is the central element of the universe, and he postulated a world with no beginning and no end Pythagoras (581-497 B.C.) - Greek philosopher and mathematician; held that numbers were basic to matter; the Pythagorean Theorem is named for his geometric formulation; developed atomic theory; students of his philosophy emphasized geometrical form as a basic property of atoms; developed mathematical relationships which led to musical harmony. Empedocles c.490
Synthetic Organic Chemistry was ignored at first, but, in the 1920's, willstatter and a by the English chemistsArcher John Porter martin (1910?) and richard Laurence Millington http://www.imbris.net/~jfromm/history/synorg.htm
Extractions: Synthetic Organic Chemistry Dyes When, in the first half of the nineteenth century, men like Berthelot began to put together organic molecules, they were extending drastically the accepted limits of their science. Instead of confining their investigations to the existing physical environment, they were beginning to imitate the creativity of nature, and it was to be only a matter of time until nature would be surpassed. In a very small way, Berthelot's work with some of his synthetic fats was a start in this direction, but much more remained to be done. Insufficient understanding of molecular structure hampered the organic chemists of the mid-nineteenth century, but such was the irresistible progress of the science that in at least one significant episode even this shortcoming actually turned out to be an advantage. At the time (the 1840's) there were few organic chemists of note in Great Britain, and August Wilhelm von Hofmann (1818-1892), who had worked under Liebig, was imported to London from Germany. For an assistant, some years later, Hofmann drew a teen-age assistant, William Henry Perkin (1838-1907). One day, in Perkin's presence, Hofmann speculated aloud on the feasibility of synthesizing quinine, the valuable anti-malarial. Hofmann had done research on chemicals obtained from coal tar (a thick, black liquid obtained by heating coal in the absence of air), and he wondered whether it was possible to synthesize quinine from a coal tar chemical like aniline. The synthesis, if it could be accomplished, would be a great stroke, he said: it would relieve Europe's dependence on the far-off tropics for the supply of quinine.
LIBRARY NEW TITLES LIST V. ROAD TO STOCKHOLM nobel PRIZES SCIENCE AND FOR WATER MANAGEMENT/Beniston, MartinREADING THE Faraday Division richard willstatter IM BRIEFWECHSEL MIT STACK http://www.lib.csufresno.edu/lists/newtitles/alis98/q.html
Untitled In 1911, the German chemist richard willstatter had published contains, then proceededto substantiate willstatter's synthesis in With MM martin and MA McKervey http://www.ulib.org/webRoot/Books/National_Academy_Press_Books/biographical_memo
Extractions: A RTHUR CLAY COPE, an extraordinarily influential and imaginative Organic chemist, was born on June 27, 1909, and died on June 4, 1966. He was the son of Everett Claire Cope and Jennie (Compton) Cope, who lived in Dunreith, Indiana, but later moved to Indianapolis to enhance their son's educational possibilities. Everett Cope was in the grain storage business and his wife worked for some time at the local YWCA office. In 1929 Arthur received the bachelor's degree in chemistry from Butler University in Indianapolis, then, with the support of a teaching assistantship, moved to the University of Wisconsin for graduate work. His thesis advisor at Wisconsin was S. M. McElvain, whose research program included the synthesis of Organic compounds with possible pharmaceutical uses-especially local anesthetics and barbiturates. Cope's thesis work, completed in 1932, was along these lines. It led to the discovery of a useful local anesthetic and provided the major theme of his research for many years. Cope clearly made a strong impression at Wisconsin during his graduate career. He completed his thesis work and three independent publications in three years and was recommended by the Wisconsin organic chemistry faculty (then headed by the redoubtable Homer Adkins) for one of the highly sought-after National Research Council Fellowships at Harvard. In 1933, he moved to Harvard to work under one of the leading Organic chemists of the day, E. R Kohler.
Untitled 22. the German chemist richard willstatter had published an arduous then proceededto substantiate willstatter's synthesis in 1966. With MM martin and MA McKervey http://www.ulib.org/webRoot/Books/National_Academy_Press_Books/biographical_memo
Extractions: The National Academy of Sciences was established in 1863 by Act of Congress as a private, nonprofit, self-governing membership corporation for the furtherance of science and technology, required to advise the federal government upon request within its fields of competence. Under its corporate charter the Academy established the National Research Council in 1916, the National Academy of Engineering in 1964, and the Institute of Medicine in 1970.
FECS Millennium Project - Willstätter 20th Century. Willstätter, richard Born Karlsruhe (Germany), 1872 Died Muralto(Switzerland), 1942. In 1915 he received the nobel Prize for chemistry. http://www.chemsoc.org/networks/enc/fecs/Willstatter.htm
Untitled In 1931, a German biochemist, richard willstatter rediscovered the In 1973, Nobellaureate Harold Urey 'published a comments of David Edge and Brian martin. http://www.nih.gov/welcome/director/ebiomed/history1.htm
Extractions: Source: Social Studies of Science , vol. 25, pp. 165-183 (1995) The Plight of the Obscure Innovator in Science ABSTRACT In his informative and thoughtful paper, Professor Juan Miguel Campanario raises issues which are of the greatest possible importance to scientific progress. In this response, I should like to augment Campanario's review with additional data, interpretations, and reflections. Three Views on the Extent of Resistance to New Ideas in Science Everyone agrees that some seminal work has been refused publication, ignored, or scorned by the scientific community. The extent of such rejection is, however, highly controversial. This uncertainty may strike a newcomer to this field as odd, for it can be resolved through systematic historical studies. Nonetheless, such studies are yet to be carried out, and the subject at this writing remains as contentious as it has ever been. The minimalist position states that rejection of new scientific ideas is rare and, hence, that it is of little consequence to scientific progress. 1. When Scholars talk a matter over one with another, then is there a winding up, an unraveling; one or the other is convinced of error, and he then acknowledges his mistake; distinctions are drawn, and contra-distinctions; and yet thereby they are not angered. Thus do scholars, O king, discuss.
O Século Da Química Translate this page ser contemplada ainda em 1915, com willstatter, que descobriu nobel em Química) Osvencedores do nobel em Química SIR HAROLD W. KROTO , e richard E. SMALLEY http://www.qmcweb.org/artigos/nobel_prize/nobel_frames.html
Extractions: Uma das definições da Química diz que " ". É graças a química que, hoje, temos automóveis, computadores, máquinas de lavar louças, sabonetes hidratantes, remédios e colchões ortopédicos. O conforto é um produto do século 20 - uma consequência da evolução da Química! passado a palavra "plástico" sequer existia em nosso vocabulário. Graças ao desenvolvimento da química orgânica e sintética, no século 20, os plásticos (polímeros sintéticos) se tornaram onipresentes em nossa vida. Os plásticos também já estiveram presentes aqui no QMCWEB. Confira:
Chemists That Shaped The Science Alfred Bernhard nobel, (18331896); Dmitri Ivanovich Mendeleyev, (1934-1907 RichardMartin willstatter, (1872-1942); Arthur Lapworth, (1872-1941); Hans Karl August http://www.pmf.ukim.edu.mk/PMF/Chemistry/chemists/chemists.htm
Extractions: This site contains a list of the most important people who have contributed to the development of chemistry. It is planned to include a biography with the most important details of their life and their scientific contribution. The list is chronological by the date of birth. To locate someone on the list, the browser's 'find' function can be used. If you want to submit a biography or have any comments on any of the already published materaial, please contact one of the authors of the list. It would be preferable that the subimissions be in Engish but other languages are also acceptable. If you are aware of any other sites that contain a bioghrphy please supply the link so the material can be used.
JudaicaSite Translate this page Karl Landsteiner (Premio nobel 1930 de Medicina) Ideó el Howard martin Temin (PN.1975). RichardWillstatter (PN.1915) Elaboró la tropina, la tropilina, el http://www.judaicasite.com/contenidos/cienciaytora/influencia.php3
Bina Diamond Interview - The Harmony Project civilization in the manner of nobel Prize Winners 1910 Otto Wallach 1915 - RichardWillstatter 1918 - Fritz David Baltimore 1975 - Howard martin Temin 1976 http://www.theharmonyproject.org/sacredpaths/judaism/diamond.htm
Artonline Gauguin dipinge Otahie Anna martin. willstatter scopre la struttura chimica della clorofilla. http://www.artonline.it/cronologia-print.asp?IDArtista=16
Www.cotse.com/wordlists/n_surna2 Ricci Ricciardi Riccio Rice Rich richard richards richardson St Andre St Clair StMartin St Omer Willkie Willner Wills Willson willstatter Willwerth Wilmarth http://www.cotse.com/wordlists/n_surna2
