(Askeri) SOĞUTMA TEKNİĞİ (HV.): -150°C (-238°F) altındaki ısı ile ilgili fizik olaylar konusu. "Cryogenics" veya eşanlamlı deyim olan "Cryogeny" daha geniş bir ifadeyle çok düşük ısı elde etme metodlarını ifade eder. CRYPTANALYSIS (AMERİKA SAVUNMA BAKANLIĞI; AMERİKAN SAVUNMA KURULU): KRİPTO ANALİZİ: Kriptolamada kullanılan anahtarı bilmeksizin kriptolanmış bir metni normal bir metin haline getirmek için uygulanan adım ve işlemler
İngilizce - İngilizce
cryogenic teriminin İngilizce İngilizce sözlükte anlamı
The use of extreme cold (within a few degrees of absolute zero) Cryogenic systems often involve the use of liquid helium (4 Kelvin) or liquid nitrogen (77 K) Astro-E uses liquid helium and solid neon (17 K)
Pertaining to very low temperatures Aluminum gains strength as temperature is reduced, making it an appropriate material for cryogenic applications
Cryogenic conditions are conditions where temperatures are low enough for gases to condense to become liquids or solids For IFE capsules, deuterium and tritium can be frozen to solid, cryogenic form by the boiling of liquid helium
Frozen at extremely low temperatures The field of cryogenics is attempting to produce temperatures as close to absolute zero as possible Absolute zero is the temperature at which molecules stop moving altogether
Empire Magnetics cryogenic motors and related products are rated for an ambient temperature of 20° K though motors rated for an ambient temperature of 4° K have been provided on a custom basis
The form cryogenic is used as a modifier. Cryogenics is a branch of physics that studies what happens to things at extremely low temperatures. the scientific study of very low temperatures (cryogen (19-21 centuries), from kryo- (from kryos ) + -gen (from -genes )). Study and use of low-temperature phenomena. The cryogenic temperature range is from -238°F (-150°C) to absolute zero. At low temperatures, matter has unusual properties. Substances that are naturally gases can be liquefied at low temperatures, and metals lose electrical resistance as they get colder (see superconductivity). Cryogenics dates from 1877, when oxygen was first cooled to the point at which it became a liquid (-297°F, or -183°C); superconductivity was discovered in 1911. Applications of cryogenics include the storage and transport of liquefied gases, food preservation, cryosurgery, rocket fuels, and superconducting electromagnets