explosive
5 statements, 0 sitelinks - 15:20, 28 May 2023
chemical compound
10 statements, 0 sitelinks - 15:20, 28 May 2023
biological oxidation of ammonia or ammonium to nitrite followed by the oxidation of the nitrite to nitrate
3 statements, 0 sitelinks - 11:01, 12 December 2023
...]鉱床で見られる鉱物である。鉱床はしばしば、最も溶解度の低いものが底部に、最も溶解度の高いものが上部にある層を示す。ナイター([[potassium nitrate/ja|硝酸カリウム]])の鉱床は、大気と接触した有機物の分解によって形成される。
...用される、 [[potassium sulfate/ja|硫酸塩]]({{chem2|K2SO4}})、または[[potassium nitrate|nitrate/ja|硝酸塩]]({{chem2|KNO3}})の形で、「K」[[labeling of fertilizer/ja|肥料の表示|in "NPK"]]
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56 KB (1,723 words) - 12:02, 22 April 2024
...。[[food quality/ja|食品の品質]]を保証するために、プロテインミールの購入者は、[[urea/ja|尿素]]や[[ammonium nitrate/ja|硝酸アンモニウム]]などの最も一般的な非タンパク質窒素汚染物質を検出するように設計された[[:en:quality control|品質管理]]
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31 KB (913 words) - 19:24, 23 April 2024
...酸素、窒素、および硫黄は、植物の有機物を構成し、酵素プロセスを可能にする必須栄養素である。これらは[[bicarbonate/ja|重炭酸塩]]、[[nitrate/ja|硝酸塩]]、[[ammonium/ja|アンモニウム]]、[[sulfate/ja|硫酸塩]]などの土壌中のイオンとして吸収されるか、二酸化炭素
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29 KB (993 words) - 21:33, 23 February 2024
これらは無機物(例えば[[carbon dioxide/ja|二酸化炭素]]、[[water/ja|水]]、[[nitrate/ja|硝酸塩]]、[[phosphate/ja|リン酸塩]]、[[sulfate/ja|硫酸塩]]、窒素と特に酸素の[[diatomic molecu
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28 KB (1,123 words) - 12:56, 23 February 2024
...were the production of glass, bleach, soap and [[gunpowder]] as potassium nitrate. Potassium soaps from animal fats and vegetable oils were especially prized
...at the bottom and the most soluble on top. Deposits of niter ([[potassium nitrate]]) are formed by decomposition of organic material in contact with atmosphe
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45 KB (6,646 words) - 10:13, 22 April 2024
...were the production of glass, bleach, soap and [[gunpowder]] as potassium nitrate. Potassium soaps from animal fats and vegetable oils were especially prized
...at the bottom and the most soluble on top. Deposits of niter ([[potassium nitrate]]) are formed by decomposition of organic material in contact with atmosphe
...
46 KB (6,844 words) - 10:13, 22 April 2024
...urced from inorganic matter (for example, [[carbon dioxide]], [[water]], [[nitrate]]s, [[phosphate]]s, [[sulfate]]s, and [[diatomic molecule]]s of nitrogen an
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23 KB (3,155 words) - 11:48, 22 February 2024
...urced from inorganic matter (for example, [[carbon dioxide]], [[water]], [[nitrate]]s, [[phosphate]]s, [[sulfate]]s, and [[diatomic molecule]]s of nitrogen an
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23 KB (3,235 words) - 11:48, 22 February 2024
...processes. These are absorbed ions in the soil, such as [[bicarbonate]], [[nitrate]], [[ammonium]], and [[sulfate]], or they are absorbed as gases, such as ca
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24 KB (3,438 words) - 13:40, 23 February 2024
...processes. These are absorbed ions in the soil, such as [[bicarbonate]], [[nitrate]], [[ammonium]], and [[sulfate]], or they are absorbed as gases, such as ca
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24 KB (3,516 words) - 13:38, 23 February 2024
...a|利尿剤]]、[[cardiac glycoside/ja|強心配糖体]]、[[Antiarrhythmic agent/ja|坑不整脈薬]]、[[nitrate/ja|硝酸塩]]、[[antianginal/ja|坑狭心症薬]]、[[vasoconstriction/ja|血管収縮薬]]、[[vasodilat
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58 KB (1,845 words) - 17:09, 5 November 2023
|Nitrate reductase
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25 KB (3,667 words) - 21:52, 17 April 2024
...common non-protein nitrogen contaminants, such as [[urea]] and [[ammonium nitrate]].
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25 KB (3,654 words) - 19:23, 23 April 2024
|Nitrate reductase
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26 KB (3,755 words) - 21:51, 17 April 2024
...common non-protein nitrogen contaminants, such as [[urea]] and [[ammonium nitrate]].
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25 KB (3,748 words) - 19:22, 23 April 2024
...|cardiac glycoside]]s, [[Antiarrhythmic agent|antiarrhythmics]], [[nitrate|nitrate]], [[antianginal|antianginal]]s, [[vasoconstriction|vasoconstrictors]], [[v
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52 KB (6,923 words) - 17:09, 5 November 2023
...|cardiac glycoside]]s, [[Antiarrhythmic agent|antiarrhythmics]], [[nitrate|nitrate]], [[antianginal|antianginal]]s, [[vasoconstriction|vasoconstrictors]], [[v
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54 KB (7,245 words) - 17:08, 5 November 2023