Nitric in a sentence

(1) The formula for nitric acid is HNO3.

(2) Chalcanthite, dissolve in nitric acid.

(3) Aqua fortis is also known as nitric acid.

(4) Cerussite is soluble in dilute nitric acid.

(5) Nitric acid has the molecular formula HNO3.

(6) The chemical formula for nitric acid is HNO3.

(7) The empirical formula of nitric acid is HNO3.

(8) The structural formula of nitric acid is HNO3.

(9) The oxidation of ammonia produces nitric acid.

(10) Nitrogen's valence number in nitric acid is +5.

Nitric sentence

(11) Arginine helps in the production of nitric oxide.

(12) The body needs arginines to produce nitric oxide.

(13) The azotising of ammonia gas produces nitric acid.

(14) The fumes of nitric acid can be harmful if inhaled.

(15) Nitric oxide is a colorless gas with a pungent odor.

(16) Nitric acid is used in the production of explosives.

(17) Dinitrogen is used in the production of nitric acid.

(18) The oxidizing agent in this reaction is nitric acid.

(19) The valence number of nitrogen in nitric acid is +5.

(20) Bradykinin can stimulate the release of nitric oxide.

Nitric make sentence

(21) Nitric oxide levels can be measured in exhaled breath.

(22) The oxidation number of nitrogen in nitric acid is +5.

(23) Nitric acid is commonly used in laboratory experiments.

(24) Nitric acid is used in the etching of metals and glass.

(25) Nitric oxide is known to have antimicrobial properties.

(26) Nitrogen dioxide reacts with water to form nitric acid.

(27) Nitric acid is another common oxyacid used in industry.

(28) Guncottons are made by treating cotton with nitric acid.

(29) Zinc by reaction with nitric acid produces zinc nitrate.

(30) Nitric oxide is a free radical with an unpaired electron.

Sentence of nitric

(31) Nitric oxide is involved in the regulation of blood flow.

(32) Nitrogen and oxygen form a covalent bond in nitric oxide.

(33) Diluted nitric acid is sometimes used as a cleaning agent.

(34) Nitric acid is a key component in the production of nylon.

(35) Dissolve aluminum in nitric acid to form aluminum nitrate.

(36) Ammonium-nitrate is used in the production of nitric acid.

(37) The equivalent weight of nitric acid is 63 grams per mole.

(38) Nitric oxide is a key signaling molecule in the human body.

(39) Nitric acid is highly corrosive and can cause severe burns.

(40) Nitric oxide is a key mediator of inflammation in the body.

Nitric meaningful sentence

(41) Nitric oxide is produced in higher amounts during exercise.

(42) The reoxidation of the nitric oxide forms nitrogen dioxide.

(43) The corpora cavernosa are highly sensitive to nitric oxide.

(44) Oxidizing ammonia can lead to the formation of nitric acid.

(45) Citrullines are involved in the production of nitric oxide.

(46) Nitramine can be synthesized from nitric acid and hexamine.

(47) Nitric oxide is used as a vasodilator in medical treatments.

(48) The production of nitric oxide is increased during exercise.

(49) Rhodium is a key component in the production of nitric acid.

(50) Citrulline is a popular ingredient in nitric oxide boosters.

Nitric sentence examples

(51) The electrolytic process can be used to produce nitric acid.

(52) Superoxide can react with nitric oxide to form peroxynitrite.

(53) Nitric acid is often used in the manufacturing of explosives.

(54) Nitric oxide is involved in the relaxation of smooth muscles.

(55) Nitric acid is commonly used in the production of fertilizers.

(56) Nitric oxide is involved in the transmission of nerve signals.

(57) Saltpetre is a key component in the production of nitric acid.

(58) The synthesis of nitrotoluene requires the use of nitric acid.

(59) Nitric oxide plays a crucial role in regulating blood pressure.

(60) Industrial processes can convert nitrogen gas into nitric acid.

Sentence with nitric

(61) Dioxides can react with nitrogen compounds to form nitric acid.

(62) When exposed to air, ammonia can oxidize and form nitric oxide.

(63) Hemoglobins can also bind to other gases, such as nitric oxide.

(64) The production of nitric acid involves the oxidation of ammonia.

(65) Nitric oxide is involved in the regulation of neurotransmission.

(66) Nitric oxide is used in the treatment of pulmonary hypertension.

(67) The inhibition of arginase can enhance nitric oxide availability.

(68) The role of nitric oxide in wound healing is still being studied.

(69) Oxygenizes is an important step in the formation of nitric oxide.

(70) Macrophage, release nitric oxide to kill intracellular pathogens!

Use nitric in a sentence

(71) Kinin peptides can also stimulate the production of nitric oxide.

(72) Arginase is involved in the regulation of nitric oxide production.

(73) The nitric oxide levels in the atmosphere are a cause for concern.

(74) Nitric oxide is known to play a role in regulating blood pressure.

(75) Nitric oxide is involved in the immune response against pathogens.

(76) The vasodilatory effect of nitric oxide helps widen blood vessels.

(77) Endogenously generated nitric oxide helps regulate blood pressure.

(78) Endogenous nitric oxide plays a role in blood pressure regulation.

(79) Hydroxylamine can react with nitric acid to form nitroso compounds.

(80) The excessive production of nitric oxide can lead to tissue damage.

Sentence using nitric

(81) Sodium nitrate is a key component in the production of nitric acid.

(82) Splanchnic vasodilation is mediated by the release of nitric oxide.

(83) Nitric acid is commonly used in the production of dyes and pigments.

(84) Nitric acid is commonly used in the cleaning and pickling of metals.

(85) Arginases are involved in the regulation of nitric oxide production.

(86) Haem is a key component of the heme group in nitric oxide synthases.

(87) Sodium nitrate is a key ingredient in the production of nitric acid.

(88) Erections are controlled by the release of nitric oxide in the body.

(89) Benzil can be prepared by the oxidation of benzoin with nitric acid.

(90) Nitric acid is a strong acid commonly used in laboratory experiments.

Nitric example sentence

(91) Nitric acid is a corrosive substance that can cause burns on contact.

(92) Nitric acid is often used in the production of plastics and polymers.

(93) Macrophages can produce nitric oxide to kill intracellular pathogens.

(94) Autocoids like nitric oxide play a role in regulating blood pressure.

(95) The release of nitric oxide in the body helps to relax blood vessels.

(96) The macrophage released nitric oxide to kill intracellular pathogens.

(97) Autacoids like nitric oxide play a role in regulating blood pressure.

(98) Nitric acid is a vital component in the production of pharmaceuticals.

(99) The industrial production of nitric acid involves the Ostwald process.

(100) Nitric oxide is a key signaling molecule in the cardiovascular system.

Sentence with word nitric

(101) Nitrogen decomposition is a key step in the production of nitric acid.

(102) The production of nitrous acid involves the oxidation of nitric oxide.

(103) Citrulline is believed to enhance nitric oxide production in the body.

(104) The acidic into nitrate reaction can produce nitric acid as a product.

(105) Endothelium produces nitric oxide, which helps to relax blood vessels.

(106) Bismuthinite is insoluble in water but can be dissolved in nitric acid.

(107) The excessive exposure to nitric acid can lead to respiratory problems.

(108) The inducible nitric oxide synthase enzyme is involved in inflammation.

(109) Sodium reacts with nitric acid to form sodium nitrate and hydrogen gas.

(110) Nitric acid is an example of a strong oxyacid that is highly corrosive.

Sentence of nitric

(111) The strong odor of nitric acid can be detected even in small quantities.

(112) The measurement of nitric oxide levels can be used as a diagnostic tool.

(113) Nitric oxide is a signaling molecule that can influence gene expression.

(114) Nitrogen can be converted into nitric oxide through a chemical reaction.

(115) The oxidation of ammonia is a key step in the production of nitric acid.

(116) Autocoids, like nitric oxide, are important regulators of vascular tone.

(117) Isobutylene can react with nitric acid if they are brought into contact.

(118) Nitrosobenzene can be synthesized by reacting nitric oxide with benzene.

(119) Nitric oxide is a chemical-messenger that helps to dilate blood vessels.

(120) Guncotton is made by treating cotton with nitric acid and sulfuric acid.

Nitric used in a sentence

(121) Mixing nitric acid with certain metals can result in a chemical reaction.

(122) Nitric acid is commonly used in the production of explosives such as TNT.

(123) Nitric acid is an important reagent in the field of analytical chemistry.

(124) The synthesis of nitric acid involves the reaction of ammonia and oxygen.

(125) Athletes often use nitric oxide supplements to enhance their performance.

(126) The acid strength of nitric acid is used in the production of explosives.

(127) The activation of microglia can result in the production of nitric oxide.

(128) Nitroaniline can be synthesized by nitration of aniline with nitric acid.

(129) Decomposing nitrogen is a critical step in the synthesis of nitric oxide.

(130) Aqua-regia is a highly corrosive mixture of nitric and hydrochloric acid.

Nitric sentence in English

(131) Aqua regia is a highly corrosive mixture of nitric and hydrochloric acid.

(132) The storage and handling of nitric acid require proper safety precautions.

(133) Nitric acid is a highly corrosive liquid that can dissolve certain metals.

(134) The production of nitric oxide is essential for many biological processes.

(135) Hydrolyzing ammonia is an important step in the production of nitric acid.

(136) The arteriole can regulate blood flow through the release of nitric oxide.

(137) The reaction of nitric acid with certain compounds can convert to dioxide.

(138) The production of guncottons involves treating cellulose with nitric acid.

(139) Nitric acid is often used in the production of synthetic fibers like rayon.

(140) Nitric acid is a strong oxidizing agent and can react with many substances.

(141) Nitric oxide is a key component in the formation of smog and air pollution.

(142) Denitrifying organisms are capable of converting nitrite into nitric oxide.

(143) Nitric acid is a strong Bronsted acid used in various industrial processes.

(144) The chemical reaction between nitrogen oxide and water creates nitric acid.

(145) The production of nitric acid is another way to produce nitrogen compounds.

(146) Nitric acid is commonly used in the production of nitrate-based fertilizers.

(147) The presence of nitric oxide in the atmosphere contributes to air pollution.

(148) The production of nitric oxide is stimulated by certain enzymes in the body.

(149) The synthesis of ammonia is a crucial step in the production of nitric acid.

(150) Pterin is involved in the regulation of nitric oxide production in the body.

(151) Nitric oxide can oxidize to form nitrogen dioxide in the presence of oxygen.

(152) Nitrogen can be generated by the breakdown of nitric acid in the atmosphere.

(153) When you react with ammonia and nitric acid, it can create ammonium nitrate.

(154) The azotizing reaction is an important step in the production of nitric acid.

(155) The use of nitric acid in the mining industry helps extract metals from ores.

(156) Nitric oxide is involved in the regulation of neurotransmitters in the brain.

(157) The oxidation of ammonia is a common method for the synthesis of nitric acid.

(158) Arginase is an important enzyme in the regulation of nitric oxide production.

(159) The synthesis of picrates involves the reaction of a phenol with nitric acid.

(160) The indophenol reaction is based on the reduction of nitrite to nitric oxide.

(161) Nitric acid is a strong Bronsted acid commonly used in laboratory experiments.

(162) The oxidization of nitrogen is a key process in the production of nitric acid.

(163) The production of nitric acid involves the catalytic oxidation of ammonia gas.

(164) Aqua regia is a highly corrosive mixture of nitric acid and hydrochloric acid.

(165) Vasodilation is regulated by the release of nitric oxide in the blood vessels.

(166) The addition of nitrous acid to water results in the formation of nitric acid.

(167) Electrolyzing calcium nitrate solution produces calcium metal and nitric acid.

(168) Decomposing nitrogen is an essential process in the production of nitric acid.

(169) Macrophages are capable of producing nitric oxide to inhibit bacterial growth.

(170) Beet is a good source of nitric oxide, which can improve athletic performance.

(171) The sulfuric compound can turn into sulfuric acid when mixed with nitric acid.

(172) The oxidating reaction between copper and nitric acid produces copper nitrate.

(173) Nitric acid is highly reactive and can react violently with certain substances.

(174) Nitric acid is a highly reactive substance that should be handled with caution.

(175) The production of nitric oxide can be influenced by diet and lifestyle factors.

(176) Nitric oxide is produced by the body as a defense mechanism against infections.

(177) The synthesis of trinitrate involves the reaction of nitric acid with glycerol.

(178) The azeotrope of nitric acid and water is used in the production of explosives.

(179) The oxidising power of nitric acid is utilized in various industrial processes.

(180) The production of nitroethane involves the reaction of ethane with nitric acid.

(181) The process of oxidizing ammonia is essential in the production of nitric acid.

(182) Nitrosobenzene can be synthesized by the reaction of nitric oxide with benzene.

(183) The production of ammonium nitrate requires the use of ammonia and nitric acid.

(184) You can salt out impurities from gold using a solution of salt and nitric acid.

(185) Some vasodilators work by increasing the production of nitric oxide in the body.

(186) The strong acidic properties of nitric acid make it an effective cleaning agent.

(187) The release of nitric oxide in the brain is associated with learning and memory.

(188) The production of nitric oxide is essential for various physiological processes.

(189) The acid strength of nitric acid is often used in the production of fertilizers.

(190) Autacoids, like nitric oxide, can relax smooth muscles and dilate blood vessels.

(191) The decomposition of nitrogen is a key reaction in the formation of nitric acid.

(192) Nitric acid is a strong monoacid commonly used in the production of fertilizers.

(193) The synthesis of nitroanisole involves the reaction of anisole with nitric acid.

(194) Nitric oxide is a short-lived molecule that quickly reacts with other substances.

(195) Nitric oxide is a potent antioxidant that helps protect against oxidative stress.

(196) Nitric acid is a monoacid that is commonly used in the production of fertilizers.

(197) When you dissolve bone ash in nitric acid, it can end up with phosphate solution.

(198) The photodissociation of nitric oxide is a crucial step in the formation of smog.

(199) A Bronsted acid can react with a metal nitrate to produce nitric acid and a salt.

(200) The production of nitrotoluene involves the use of nitric acid as a key reactant.

(201) The synthesis of nitroaniline involves the nitration of aniline with nitric acid.

(202) The discovery of nitric oxide's role in the body led to a Nobel Prize in Medicine.

(203) The synthesis of nitroglycerin involves the reaction of glycerol with nitric acid.

(204) The manufacturing process for guncotton involves treating cotton with nitric acid.

(205) The synthesis of dinitrobenzene involves the reaction of nitric acid with benzene.

(206) The thermolysis of nitrogen compounds can result in the formation of nitric oxide.

(207) The azote in the air can be converted into nitric acid through chemical reactions.

(208) The production of nitric acid requires careful control of temperature and pressure.

(209) Nitric oxide is used in the manufacturing of certain chemicals and pharmaceuticals.

(210) The production of trinitrophenol involves the nitration of phenol with nitric acid.

(211) The synthesis of nitroglycerine involves the reaction of glycerol with nitric acid.

(212) When barium hydroxide reacts with nitric acid, barium nitrate and water are formed.

(213) Dinitrogen can be converted into nitric acid through a series of chemical reactions.

(214) The production of ammonium nitrate involves the reaction of ammonia and nitric acid.

(215) The synthesis of nitroparaffins involves the reaction of paraffins with nitric acid.

(216) The synthesis of nitroguanidine involves the reaction of guanidine with nitric acid.

(217) The lone pair of electrons on the oxygen atom in nitric acid makes it a strong acid.

(218) Hydriodic acid, when mixed with silver nitrate, forms silver iodide and nitric acid.

(219) Aqua-regia is a mixture of concentrated nitric and hydrochloric acid in a 1:3 ratio.

(220) Vasomotion can be modulated by endothelial cells through the release of nitric oxide.

(221) Nitric oxide is involved in the relaxation of smooth muscles in the digestive system.

(222) The manufacturing process of guncottons involves treating cellulose with nitric acid.

(223) The presence of oxygen in the air allows ammonia to oxidize and produce nitric oxide.

(224) The synthesis of nitroparaffins involves the reaction of a paraffin with nitric acid.

(225) The molecule of nitric oxide is involved in regulating blood pressure and blood flow.

(226) The synthesis of nitroalkanes involves the reaction of alkyl halides with nitric acid.

(227) The paracrine release of nitric oxide can affect the dilation of nearby blood vessels.

(228) Citrulline is converted into arginine in the body, which helps to produce nitric oxide.

(229) The disproportionation of nitric oxide produces both nitrogen dioxide and nitrous oxide.

(230) Nitric oxide is a free radical that can cause damage to cells if not regulated properly.

(231) Nitric oxide is produced in small amounts by the endothelial cells lining blood vessels.

(232) Histiocytes can produce reactive oxygen species and nitric oxide to eliminate pathogens.

(233) The reaction between nitric acid and calcium carbonate will transform it into carbonate.

(234) Mucic acid can be obtained from the oxidation of galactose or glucose using nitric acid.

(235) Nitric oxide is a potent vasodilative molecule that helps to regulate blood vessel tone.

(236) The synthesis of glyceryl trinitrate involves the reaction of glycerol with nitric acid.

(237) The use of nitric acid in the manufacturing of batteries helps improve their performance.

(238) The azeotrope of nitric acid and water is commonly used in the production of fertilizers.

(239) By treating phosphate rock with nitric acid, we can end up with phosphate-rich solutions.

(240) The autoionization of nitric acid results in the formation of nitrate and hydronium ions.

(241) The reaction between nitric acid and ammonia is exothermic and produces ammonium nitrate.

(242) The salification of nitric acid and calcium hydroxide produces calcium nitrate and water.

(243) Nitric oxide is a triatomic molecule consisting of one nitrogen atom and one oxygen atom.

(244) The decomposition of ammonia is a key process in the industrial production of nitric acid.

(245) The oxidising properties of nitric acid make it a valuable chemical in various industries.

(246) The synthesis of mercury fulminate involves reacting mercury with nitric acid and ethanol.

(247) The reaction between nitric acid and a carbonate compound can generate carbon dioxide gas.

(248) The macrophage's ability to produce nitric oxide helps in killing intracellular pathogens.

(249) Studies have shown that monocrotaline can disrupt the balance of nitric oxide in the body.

(250) The reaction between nitrous acid and ammonia produces nitric oxide, a potent vasodilator.

(251) The hyponitrous acid molecule can undergo hydrolysis to form nitrous acid and nitric acid.

(252) The conversion of nitrite to nitric oxide in the body helps regulate blood vessel dilation.

(253) Nitration reactions are often carried out using a mixture of nitric acid and sulfuric acid.

(254) The oxidization of nitrogen oxide is an important process in the production of nitric acid.

(255) The manufacturing process for nitrocelluloses involves treating cellulose with nitric acid.

(256) Nitrobacteria are capable of converting nitrite into nitric oxide under certain conditions.

(257) The macrophage released nitric oxide, but it did not induce apoptosis in neighboring cells.

(258) Autacoids, including nitric oxide, can regulate blood flow to different organs and tissues.

(259) The vasodilatory effect of nitric oxide is important for maintaining healthy blood vessels.

(260) The production of nitric acid involves the oxidation of ammonia to produce nitrogen dioxide.

(261) The vasodilative properties of nitric oxide help relax blood vessels and improve blood flow.

(262) Macrophages can produce reactive oxygen species and nitric oxide to kill invading pathogens.

(263) Autacoids, including nitric oxide, can regulate smooth muscle relaxation and blood pressure.

(264) The synthesis of nitroalkanes involves the reaction of a carbonyl compound with nitric acid.

(265) The use of nitric acid in the etching process can create intricate designs on metal surfaces.

(266) When hydrochloric acid is mixed with nitric acid, it produces aqua regia, a powerful solvent.

(267) The neutralization of nitric acid with potassium nitrate produces potassium nitrate and water.

(268) The reaction between silver nitrate and sulfuric acid produces silver sulfate and nitric acid.

(269) The use of nitric acid in the food industry is strictly regulated due to its potential hazards.

(270) The measurement of nitric oxide levels can be used as a diagnostic tool for certain conditions.

(271) The oxidation of ammonia to nitric oxide is an important step in the production of fertilizers.

(272) The azeotrope of hydrofluoric acid and nitric acid is used in the production of semiconductors.

(273) The neutralization of nitric acid with potassium hydroxide produces potassium nitrate and water.

(274) Inhaled nitric oxide is used as a vasodilative therapy for newborns with pulmonary hypertension.

(275) The accumulation of nitrogen in the form of nitric oxide can contribute to the formation of smog.

(276) The photodissociation of nitrogen dioxide leads to the formation of nitric oxide and oxygen atoms.

(277) The amperometric method was used to determine the concentration of nitric oxide in the air sample.

(278) Endothelial cells produce nitric oxide, which helps to relax blood vessels and improve blood flow.

(279) The production of dinitrobenzene involves the use of nitric acid and benzene as starting materials.

(280) Researchers have discovered the therapeutic potential of nitric oxide in treating certain diseases.

(281) The reaction between silver nitrate and hydrochloric acid produces silver chloride and nitric acid.

(282) The lone pair of electrons on the nitrogen atom in nitric acid contributes to its acidic properties.

(283) Nitric oxide is a key mediator of vasodilatation, relaxing smooth muscle cells in the blood vessels.

(284) The disproportionation of nitrous acid results in the formation of both nitric acid and nitric oxide.

(285) The lone pair of electrons on the oxygen atom in nitric oxide contributes to its paramagnetic nature.

(286) The use of nitric acid in the manufacturing of steel helps remove impurities and improve its quality.

(287) Denitrifiers are capable of reducing nitrate to nitrite and further to nitric oxide and nitrogen gas.

(288) The production of nitromethane involves the reaction of nitric acid with a suitable organic compound.

(289) The combination of nitric acid and hydrochloric acid in aqua regia creates a highly reactive solution.

(290) Dinitrogen is used in the production of nitric acid, which is used in the manufacturing of explosives.

(291) The process to synthesize calcium nitrate involves the reaction of calcium carbonate with nitric acid.

(292) The disproportionation of nitrous acid in an acidic solution yields both nitric acid and nitric oxide.

(293) The acidbase reaction between nitric acid and potassium hydroxide produces potassium nitrate and water.

(294) The oxidation of ammonia is a vital step in the production of nitric oxide for industrial applications.

(295) The production of nitrocellulose involves treating cellulose with a mixture of nitric and sulfuric acids.

(296) The neutralization reaction between nitric acid and potassium hydroxide forms potassium nitrate and water.

(297) The neutralization reaction between nitric acid and magnesium hydroxide forms magnesium nitrate and water.

(298) Nicotinamide adenine dinucleotide phosphate is an important cofactor for the enzyme nitric oxide synthase.

(299) The production of nitrophenol involves the nitration of phenol with a mixture of sulfuric and nitric acid.

(300) The neutralization reaction between nitric acid and calcium hydroxide results in calcium nitrate and water.

(301) The disproportionation of nitric oxide results in the formation of both nitrogen dioxide and nitrous oxide.

(302) If you add magnesium to nitric acid, it reacts to form magnesium nitrate and releases nitrogen dioxide gas.

(303) The erectile tissue in the penis is highly responsive to nitric oxide, a chemical that promotes blood flow.

(304) The chemical formula for ammonium nitrate is NH4NO3, and it is often used in the production of nitric acid.

(305) The disproportionation of nitrous acid in water leads to the formation of both nitric acid and nitric oxide.

(306) The endothelium produces nitric oxide, which helps to dilate blood vessels, and this can improve blood flow.

(307) The synthesis of dinitrotoluene involves the reaction of toluene with a mixture of nitric and sulfuric acids.

(308) The neutralization reaction between nitric acid and potassium hydroxide produces potassium nitrate and water.

(309) The neutralization reaction between nitric acid and magnesium hydroxide produces magnesium nitrate and water.

(310) The acid strength of nitric acid is strong enough to cause severe burns and damage to the respiratory system.

(311) The synthesis of trinitrobenzene involves the nitration of benzene with a mixture of nitric and sulfuric acid.

(312) The compound nitric oxide is a gas that is produced by the body and plays a role in regulating blood pressure.

(313) Dinitrogen is used in the production of nitric acid, which is used in the manufacturing of explosives and dyes.

(314) The nitrating agent used in this reaction is typically a mixture of concentrated sulfuric acid and nitric acid.

(315) The activation of kinin receptors leads to the release of nitric oxide, which promotes smooth muscle relaxation.

(316) Dinitrogen is used in the production of nitric oxide, which is an important signaling molecule in the human body.

(317) The oxidation of ammonia is a critical step in the production of nitric acid for the manufacturing of explosives.

(318) The production of nitrocelluloses involves the nitration of cellulose with a mixture of nitric and sulfuric acid.

(319) The structural formula of nitric acid is HNO3, showing one nitrogen atom, one hydrogen atom, and three oxygen atoms.

(320) Endothelial dysfunction, which is characterized by impaired nitric oxide production, can lead to cardiovascular disease.

(321) The oxidation of ammonia is a key reaction in the synthesis of nitric oxide, which is used in various industrial processes.

(322) The oxidation of ammonia is a key step in the production of nitric acid, which is used in the manufacturing of fertilizers.

(323) The activity of certain enzymes, such as nitric oxide synthase, is dependent on nicotinamide adenine dinucleotide phosphate.

(324) The disproportionation of nitrite ions in acidic solution results in the formation of both nitric oxide and nitrogen dioxide.

(325) The disproportionation of nitric acid in an alkaline solution results in the formation of both nitrate ions and nitrous acid.

(326) The production of ammonium nitrate involves the reaction of ammonia gas and nitric acid, and this process is highly exothermic.

(327) Dinitrogen is used in the production of nitric acid, which is a key ingredient in the manufacturing of fertilizers and explosives.

(328) How amazing is it that dinitrogen can be converted into nitric acid, which is used in the production of fertilizers and explosives!

(329) The production of ammonium nitrate involves the reaction of ammonia gas with nitric acid, which produces ammonium nitrate and water.

(330) Nitrosation is an important process in the formation of nitric oxide, a signaling molecule involved in various physiological processes.

(331) Pterin is involved in the production of nitric oxide, a signaling molecule that regulates blood pressure and other physiological processes.

(332) Iodic acid can be prepared by reacting iodine with concentrated nitric acid, but this process can be dangerous and should only be attempted by experienced chemists.

(333) When used in combination with other chemicals, such as sulfuric acid or nitric acid, ammonium hydroxide can be used to synthesize a variety of compounds for use in the pharmaceutical and chemical industries.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Nitric. They do not represent the opinions of TranslateEN.com.