Herman, Robert

Herman, Robert, and Ralph A. Alpher. Genesis of the Big Bang. New York Oxford University Press, 2001. 

Metabolic regulation. 2. Mammals-Physiology. I. Herman, Robert H. II. Cohn, Robert M. III. McNamara, Pamela D. 

Robert H. Herman Robert M. Cohn Pamela D. McNamara... 

Peter Deuflhard Jan Hermans Benedict Leimkuhler Alan E. Mark Sebastian Reich Robert D. Skeel... 

Herman Pines and Luke A. Schaap The Use of X-Ray K-Absorption Edges in the Study of Catalytically Active Solids Robert A. Van Nordstrand The Electron Theory of Catalysis on Semiconductors Th. Wolkenstein... 

Blumenthal, James A., Michael A. Babyak, Kathleen A. Moore, W. Edward Craighead, Steve Herman, Parinda Khatri, Robert Waugh, Melissa A. Napolitano, Leslie M. Forman, MarkAppelbaum, P. Murali Doraiswamy and K. Ranga Krishnan, Effects of Exercise Training on Older Patients with Major Depression , Archives of Internal Medicine 159 (1999) 2349-56... 

Professor Mark s story is told in three chapters by the Editor and four reminiscences by Rudolf Brill (whose association with Mark dates back to 1922), Hans Mark (his son), Linus Pauling, and Maurice Morton. The history of polymer science is given in separate chapters by the Editor, Robert Simha (who has worked with Professor Mark in two countries), and Carl Speed Marvel. One chapter by Charles Carraher gives an up to the minute report on the status of polymer education. The remainder of the book is a collection of reviews and previews of specific, timely topics in polymer science. Despite the diversity of topics, each area covered has contributions from Herman Mark. 

Rabideau, Peter W., 42 Rabjohn, Norman, 5, 24 Rathke, Michael W., 22 Raulins, N. Rebecca, 22 Raynolds, Peter W., 45 Reed, Josephine W., 41 Reich, Hans J., 44 Reinhold, Tracy L., 44 Reitz, Allen B., 59 Rhoads, Sara Jane, 22 Rickborn, Bruce, 52, 53 Rigby, James H., 49, 51 Rinehart, Kenneth L., Jr., 17 Ripka, W. C., 21 Riva, Renata, 65 Roberts, John D., 12 Rodriguez, Alain L., 58 Rodriguez, Herman R., 26 Roe, Arthur. 5... 

Ben Roberts Claudia Herman Jean Lake Emi Koike... 

My dear project partners, Rune Bredesen (for the nice times in Oslo, we should soon have another evening in the Microbrewery or Cafe Amsterdam), Christian Simon, Bente Tilset and Reidar Haugsrud from SINTEF, Frans en Maurice Velterop, Robert Kuipers en Theo de Beer from Velterop BV, Herman Weyten en Jan Luyten from VITO, Jean-Alain Dal-mon and Patrice Ciavarella from IRC, Frans Janssen en Robert Meijer from KEMA and Arne Amundskas from Norsk Hydro. 

My aim in this paper is to examine the case of Herman Boerhaave in order to suggest that the instruments constituted one solution to what many chemists considered to be a fundamental problem in traditional chymical approaches at the turn of the eighteenth century claims about material composition based on analysis by fire. Many seventeenth-century chemists, for example Robert Boyle, began to doubt the efficacy of traditional fire analysis to decompose bodies into their principles or elements without altering the products of the analysis.7 Following the work of Boyle, Boerhaave... 

Between 1948 and 1950 a trio of physicists, George Gamow (1904-68), Ralph Alpher (1921- ), and Robert Herman (1914-97), worked out a detailed mathematical analysis of this "fossil radiation" and determined that its temperature would he about 5 K (about 2.72 degrees above absolute zero), a very cold temperature indeed, hut not zero That prediction made possible another experimental test of the big hang. The challenge was to search the skies to see if low-level radiation of this temperature could he found. 

Not until the seventeenth century was doubt cast on the notion that air was one of the basic elements. A Dutch physician and naturalist, Herman Boerhaave (1668-1738), was the first to suspect that there is some lifesupporting ingredient in the air that is the key to breathing and combustion. The chemists will find out what it actually is, how it functions, and what it does it is still in the dark, Boerhaave wrote in 1732. Happy he who will discover it. 3 In England, the brilliant scientist Robert Boyle (1627-1691) also maintained that some life-giving substance, probably related to those needed for maintaining a flame, was part of the air. The English physician and naturalist John Mayow (1645-1679) claimed that nitro-aerial corpuscles 4 were responsible for combustion. 

Chun Wang, Herman N. Eisen, Robert Langer, and Jorge Heller... 

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