The Russian-English volume contains about 50,000 terms covering various fields and subfields of nuclear engineering and technology: nuclear physics, thermonuclear research, nuclear reactors, nuclear fuel, isotopes, radiation, reliability and safety issues, environmental protection, emergency issues, radiation hazards. Terms from the military nuclear field are also included, as well as the names of nuclear power plants and nuclear societies worldwide. It also contains a section of about 250 abbreviations.
The English-Russian volume contains about 50,000 terms covering various fields and subfields of nuclear engineering and technology: nuclear physics, thermonuclear research, nuclear reactors, nuclear fuel, isotopes, radiation, reliability and safety issues, environmental protection, emergency issues, radiation hazards. Terms from the military nuclear field are also included, as well as the names of nuclear power plants and nuclear societies worldwide. It also contains a comprehensive section of about 6,500 abbreviations..
The English-Russian dictionary of technical abbreviations contains nearly 65,000 entries covering various fields and subfields of engineering and technology. Abbreviations are widely used in technical literature and, as a rule, they create difficulties for the reader. Numerous abbreviations are used in technical literature dealing with space, agriculture, electronics, computer science, chemistry, thermodynamics, nuclear engineering, refrigeration, cryogenics, machinery, aviation, business, accounting, optics, radio electronics, and military fields, including abbreviations used on a wide scale by the Navy, Airforce and the Army.In many instances the same abbreviation is used in most different fields of engineering and technology though depicting different notions. There are cases when the same abbreviation may have dozen of meanings, depending on the specific field of engineering.The entries are arranged in alphabetical order. A wide range of literature has been explored for the selection and translation of the abbreviations. The dictionary has been compiled by comparing parallel texts in both languages, and by consultation with experts.This publication will be invaluable to the personnel of designing bureaus and research institutions, and also to translators, scientists, researchers, designers and university personnel dealing with various fields of engineering and technology.approx. 125,000 terms
7806 entries to terms reflecting advances. The basic list includes entries in English, brief definitions, and equivalent terms in other languages. Separate cross reference lists for each language.
This multilingual dictionary explains, in simple and clear language, the most frequently used terms and expressions in the field of nuclear reactor physics and engineering, and provides translations of these terms from English into French, German, Swedish and Polish. This unique resource offers many advantages over the use of online translation tools, which are often incorrect when dealing with scientific and technical words. Instead, this dictionary has used a wide variety of peer-reviewed books and journal papers to ensure the highest accuracy and establish itself as a reliable and credible reference for the reader. It covers a broad range of exciting topics and the latest developments in the field, including reactor technology, reactor components and systems, reactor operation and control, reactor types, reactor physics, thermal engineering, reactor safety, radiation protection, nuclear fuel, nuclear chemistry, the safeguarding of nuclear materials and much more. This dictionary is kept on a technical level corresponding to masters-level and PhD studies of nuclear physics and engineering. It will provide the reader with a broad understanding of the necessary information that a researcher or nuclear physicist or engineer would need to possess; therefore, it will be an invaluable resource for students within these and related disciplines. Features: Contains over 1500 key terms from the field The first book to provide translations in five languages: English, French, German, Swedish and Polish Accessible to masters-level and PhD students in addition to early career researchers in nuclear reactor physics and engineering
The dictionary contains an alphabetical listing of approximately 30,000 (thirty thousand) acronyms, initialisms, abbreviations and symbols covering approximately 2,000 fields and subfields ranging from Pelagic Ecology to Anthrax Disease, Artificial Organs to Alternative Cancer Therapies, Age-related Disorders to Auditory Brainstem Implants, Educational Web Sites to Biodefense, Biomedical Gerontology to Brain Development, Cochlear Implants to Cellular Phones, Constructed Viruses to Copper Metabolism, Drug Discovery Programs to Drug-resistant Strains, Eugenics to Epigenetics, Epilepsy Drugs to Fertility Research, Genetically Modified Foods/Crops to Futuristic Cars, Genetic Therapies to Glycobiology, Herbicide-tolerant Crops to Heritable Disorders, Human Chronobiology to Human gene Therapies, Immunization Programs to Lunar Research, Liver Transplantation to Microchip Technology, Mitochondrial Aging to Molecular Gerontology, Neurodegenerative Diseases to Neuropsychology of Aging, Neurosurgery to Next Generation Programs, Obesity Research to Prion Diseases, Quantum Cryptography to Reemerging Diseases, Retinal Degeneration to Rice Genome Research, Social Anthropology to Software Development, Synchrotron Research to Vaccine Developments, Remote Ultrasound Diagnostics to Water Protection, Entomology to Chemical Terrorism and hundreds of others, as well as abbreviations/acronyms/initialisms relating to European Community and U.S., Japanese and International Programs/Projects/Initiatives from year 2000 up to 2010 as well as World Bank Programs.
The only source that focuses exclusively on engineering and technology, this important guide maps the dynamic and changing field of information sources published for engineers in recent years. Lord highlights basic perspectives, access tools, and English-language resources—directories, encyclopedias, yearbooks, dictionaries, databases, indexes, libraries, buyer's guides, Internet resources, and more. Substantial emphasis is placed on digital resources. The author also discusses how engineers and scientists use information, the culture and generation of scientific information, different types of engineering information, and the tools and resources you need to locate and access that material. Other sections describe regulations, standards and specifications, government resources, professional and trade associations, and education and career resources. Engineers, scientists, librarians, and other information professionals working with engineering and technology information will welcome this research
CD-ROM version. A handy reference for nuclear scientists and engineers, this work covers such fields as physics, nuclear physics, nuclear chemistry, isotopy, metallurgy, chemical technology and biology, as well as ionizing radiation.
