Scientist, role

The discipline now also has a cadre of clinical scientists who are fulfilling the typical academic scientist role but in order to accomplish this, these individuals have had to focus primarily on teaching and research with minimal activities in practice. Since the fundamental role of the discipline is to prepare students for actual practice, a cadre of clinical faculty whose primary duties are practice and teaching are therefore also essential. 

Schwartz, M.A. Are academic pharmacists meeting the clinical scientist role Drug Intell. Clin. Pharm. 1987, 21, 114-117. 

In summary, solvents can influence Diels-Alder reactions through a multitude of different interactions, of which the contributions to fire overall rate uniquely depend on the particular solvent-diene-dienophile combination. Scientists usually feel uncomfortable about such a situation and try to extract generalities. When limited to the most extensively studied type A Diels-Alder reactions this approach seems feasible. These Diels-Alder reactions are dominated by hydrogen bonding interactions in combination with solvophobic interactions. This observation predicts a very special role of water as a solvent for type A Diels-Alder reactions, which is described in Section 1.4. 

The discovery of oxygen, the development of a cleat understanding of the nature of air, and a knowledge of the role of oxygen in combustion and in life processes were historically important scientific achievements. In the 1770s, air and ethers were studied by such scientists as Cavendish, Ptiesdey, and Scheele. Both Scheele and Ptiesdey independendy prepared oxygen. Whereas Scheele s work remained unpubUshed until after his death, Ptiesdey was able to relate his discovery direcdy to Lavoisier in 1775. 

Some 20 years after the pressure for the creation of the new interdisciplinary laboratories was first felt, one of the academics who became involved very early on. Prof. Rustum Roy of Pennsylvania State University, wrote eloquently about the underlying ideal of interdisciplinarity (Roy 1977). He also emphasised the supportive role played by some influential industrial scientists in that creation, notably Dr. Guy Suits of GE, whom we have already encountered, and Dr. William Baker of Bell Laboratories who was a major force in pushing for interdisciplinary materials research in industry and academe alike. A magisterial survey by Baker (1967), under the title Solid State Science and Materials Development, indicates the breadth and scope of his scientific interests. 

As remarked above, surface science has come to be partitioned between chemists, physicists and materials scientists. Physicists have played a substantial role, and an excellent early overview of surface science from a physicist s perspective is by Tabor (1981). An example of a surface parepisteme that has been entirely driven by physicists is the study of the roughening transition. Above a critical temperature but... 

The shock-compression events are so extreme in intensity and duration, and remote from direct evaluation and from other environments, that experiment plays a crucial role in verifying and grounding the various theoretical descriptions. Indeed, the material models developed and advances in realistic numerical simulation are a direct result of advances in experimental methods. Furthermore, the experimental capabilities available to a particular scientist strongly control the problems pursued and the resulting descriptions of shock-compressed matter. Given the decisive role that experimental methods play, it is essential that careful consideration be given to their characteristics. 

There are many definitions of the word risk. It is a combination of uncertainty and damage a ratio of Itazards to safeguards a triplet combination of event, probability, and consequences or even a measure of economic loss or human injury in terms of both the incident likelihood and tlie magnitude of the loss or injuiy (AICliE, 1989). People face all kinds of risks eveiyday, some voluntarily and otliers involuntarily. Tlierefore, risk plays a very important role in today s world. Studies on cancer caused a turning point in tlie world of risk because it opened tlie eyes of risk scientists and healtli professionals to tlie world of risk assessments. 

In general, the role of the water quality engineer and scientist is to analyze water quality problems by dividing each case into its principal components. These are ... 

Hie present challenge for scientists is to use modern spectroscopic techniques fsuch as NMR, in situ IR, in situ EXAFS, and otliers already available, or which w ill become available in the near future) in combination with advanced theoretical calculations to obtain new insights into the actual mechanisms and species tliat play roles in reactions of wed known organocopper and cuprate compounds. 

The hydrogen atom, containing a single electron, has played a major role in the development of models of electronic structure. In 1913 Niels Bohr (1885-1962), a Danish physicist, offered a theoretical explanation of the atomic spectrum of hydrogen. His model was based largely on classical mechanics. In 1922 this model earned him the Nobel Prize in physics. By that time, Bohr had become director of the Institute of Theoretical Physics at Copenhagen. There he helped develop the new discipline of quantum mechanics, used by other scientists to construct a more sophisticated model for the hydrogen atom. 

Reviews, such as those that have been published in Advances in Polymer Science, thus play a very important role in the education of scientists and therefore in the progress of science. How important this role is, of course, depends on the choice of the reviewers and the quality of their reviews. In my opinion, the editors of the volumes in this series have just cause to be proud of their record over the past 25 volumes. 

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