The Collaborative International Dictionary
Nitric \Ni"tric\, a. [Cf. F. nitrique. See Niter.] (Chem.) Of, pertaining to, or containing, nitrogen; specifically, designating any one of those compounds in which, as contrasted with nitrous compounds, the element has a higher valence; as, nitric oxide; nitric acid.
Nitric acid, a colorless or yellowish liquid obtained by distilling a nitrate with sulphuric acid. It is powerfully corrosive, being a strong acid, and in decomposition a strong oxidizer.
Nitric anhydride, a white crystalline oxide of nitrogen ( N2O5), called nitric pentoxide, and regarded as the anhydride of nitric acid.
Nitric oxide, a colorless poisous gas ( NO) obtained by treating nitric acid with copper. On contact with the air or with oxygen, it becomes reddish brown from the formation of nitrogen dioxide ( NO2, also called nitric dioxide or nitric peroxide).
Wiktionary
n. (context chemistry English) the binary compound of nitrogen and oxygen NO; an unstable compound which rapidly oxidizes in the presence of air
WordNet
n. a poisonous red-brown gas (NO)
Wikipedia
Nitric oxide ( nitrogen oxide, nitrogen monoxide) is a molecular, chemical compound with chemical formula of · N O. One of several oxides of nitrogen, it is a colorless gas under standard conditions. Nitric oxide is a free radical—i.e., its bonding structure includes an unpaired electron, represented by the dot (·) on the nitrogen atom— and it is in the class of heteronuclear diatomic molecules that are of historic theoretical interest (for the insights they gave in formulating early modern theories of bonding). It is a practically important intermediate in the chemical industry. In addition, some is unavoidably produced during combustion of fossil fuels in power plants and automobile engines, with excess being created when there is present more air, or higher temperatures, than needed for efficient and complete combustion of the fuel. It is also produced naturally by the extremely high air temperatures produced along the path of lightning in thunderstorms.
In mammals including humans, ·NO is an important cellular signaling molecule involved in many physiological and pathological processes. It is a powerful vasodilator with a short half-life of a few seconds in the blood. Long-known pharmaceuticals such as nitroglycerine and amyl nitrite were found to be precursors to nitric oxide more than a century after their first use in medicine. Low levels of nitric oxide production are important in protecting organs such as the liver from ischemic damage. Nitric oxide production is associated with nonalcoholic fatty liver disease (NAFLD) and is essential for hepatic lipid metabolism under starvation.
As a consequence of its importance in neuroscience, physiology, and immunology, ·NO was proclaimed " Molecule of the Year" in 1992. Research into its function led to the 1998 Nobel Prize for discovering the role of nitric oxide as a cardiovascular signalling molecule. Nitric oxide should not be confused with nitrous oxide (NO), an anaesthetic, or with nitrogen dioxide (NO), a brown toxic gas and a major air pollutant, the latter being a product to which nitric oxide is rapidly oxidised in air.
It is classified as an extremely hazardous substance in the United States as defined in Section 302 of the U.S. Emergency Planning and Community Right-to-Know Act (42 U.S.C. 11002), and is subject to strict reporting requirements by facilities which produce, store, or use it in significant quantities.
Nitric Oxide is a peer-reviewed scientific journal and official journal of the Nitric Oxide Society. The journal covers the broad field of nitric oxide research and includes basic and clinical topics such as cell biology, molecular biology, biochemistry, immunology, pathology, genetics, physiology, pharmacology, and disease processes.
Usage examples of "nitric oxide".
It closed, and as the ship rose, there was a mass of nitric oxide in it.
In nature, nitric oxide is a formidable toxin and a common component of air pollution.
Eventually, the nitric oxide molecules would drift into the lower atmosphere, where some would split apart into their harmless constituents.
Proposed an inverse square law for electrical charge, and credited with being the first to prepare oxygen, nitric oxide, and gaseous ammonia.