Foreign-language and English Dictionaries in the Physical Sciences and Engineering

Foreign-language and English Dictionaries in the Physical Sciences and Engineering
Author: Tibor W. Marton
Publisher: Washington, U.S. Department of Commerce
Total Pages: 196
Release: 1964
Genre: Encyclopedias and dictionaries
ISBN:

The bibliography lists over 2800 unilingual, bilingual, and polyglot dictionaries, glossaries and encyclopedias in the physical sciences, engineering and technology published during the past twelve years.The majority of the titles cited have English as the xource or target language, or are dictionaries giving definitions * in English.The bibliographic entries are arranged in 49 subject classes; within each subject, the entries are listed alphabetically by language, and within each language group by author.Forty-seven foreign languages are represented in the compilation.Lists of abbreviations and reference sources, and detailed author, language, and subject indexes complement the publication. (Author).

Astrophysik II: Sternaufbau / Astrophysics II: Stellar Structure

Astrophysik II: Sternaufbau / Astrophysics II: Stellar Structure
Author: Marshal H. Wrubel
Publisher: Springer Science & Business Media
Total Pages: 838
Release: 2013-03-09
Genre: Science
ISBN: 3642459080

Sects. 12, 13. 89 sequence and that subgiant and fainter stars in globular clusters have ultraviolet excesses. When dealing with stars whose physical properties are imperfectly under stood, such as in globular cluster stars, we cannot rely too heavily on the empiri cal calibration by the kinds of stars used to define Fig. 5, to determine their true, unreddened U-B, B-V curve. But if by a combination of arguments, principally the reddening in the region of the stars we do known about, we can assign a fairly probable unreddened U-B, B-V curve to a group of stars about which we know little, the argument may be turned around. In this case some information may be gained about the energy envelope of the stars by examining the differences between the normal two-color index curves for the unknown group of stars compared to the known. In general there seem to be two possible causes for different stars defining different normal sequences in the U-B, B-V plane. One, the relative energy distribution in the continuum in the U, B and V photometry bands are different. An example of this is the effect of the Balmer depression in supergiants. This, of course, requires deviation from black body radiation curves for one or both groups of stars. This cause seems to be the dominant effect for very blue, hot stars where the depression of the continuum by absorption lines is at a minimum.