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non metal oxides react with water to give oxyacid but also do undergo disproponation depending on the oxidation number ( oxidation number is increased and decreased, respectively) of the metal N2O5 + H2O → 2HNO3 3NO2 + H2O → 2HNO3 + NO
We will find that nitrogen dioxide in air will react with water to form nitric acid. The equation looks like this: 3NO2 + H2O => 3HNO3 + NO
Nitrogen dioxide reacts with water to form nitric acid and NO:3NO2 + OH· → 2HNO3 +NO Note: The NO can react with oxygen (2NO+O2-->NO2) to produce further nitric acid
3no2 h2o --> 2hno3 no
3NO2 + H2o = 2HNO3 + NO
Gold and sulphuric acid do not react at all. Gold reacts only with Aqua Regia, which is a mixture of chloridic and nitric acid. The balanced reaction is shown below: Au(s)+3HNO3(aq)+4HCl(aq)--> HAUCl4(aq)+3NO2(g)+3H20(l) Hope it's useful.
2NO2(g)+7H2(g)---->2NH3(g)+4H2O(l)
Balanced equation. 3NO2 + H2O -> 2HNO3 + NO 8.44 moles NO2 (1 mole NO/3 moles NO2) = 2.81 moles NO formed
15M nitric acid (HNO3) is a concentrated acid. In a reaction between iron and concentrated nitric acid, iron (III) nitrate [Fe(NO3)3], nitrogen dioxide (NO2), and water (H2O) are produced. The balanced reaction is as follows: Fe + 6HNO3 --> Fe(NO3)3 + 3NO2 + 3H2O
According to the following equations: N2 + 2O2 --> 2NO2 3NO2 + H2O --> 2HNO3 + NO A car that burns 420g of N2 will produce 1,260.4 g of HNO3 420 g N2 (1 mol N2/ 28 g N2) (2 mol NO2/ 1 mol N2) (2 mol HNO3/ 3 mol NO2) (63.02 g HNO3/ 1 mol HNO3) ≈ 1,260.4 g HNO3
The balanced equation would be 2N2H4 + N2O4 = 3N2 +4H2O
polythene is a polymer of ethene. polythene primary while synthesis is a waxy solid, but it is made into transparent form by processing. The waxy solid which is the pure polythene burns in oxygen at elevated temperature to give carbon dioxide and water. but the processed polythene which we use in our daily lives, will burn in air to form CO2 and H2O along with other substances say carbon particles viz SPMs'. the equation is such that: - (C2H4)n + 3nO2 ----> 2nO2 + 2nH2O I am doing research on extraction of fuel from polythene, so I know a little on combustion products of polythene you. yours faithfully, Piyush Nanda. Research scientist, WCAME fuel synthesizer.