N3O2 is trinitrogen dioxide, a molecule formed with covelant bonds.
dinitrogen trioxide
Trinitrate Pentaoxide
It's Trinitrogen Tetraoxide.
Dinitrogen dioxide
N2O2 the dimer of NO is covalent
Dinitrogen dioxide
Formula: Al2(N2O2)3
Four, two nitrogen and two oxygen.
NOx and SOx are the terms used to indicate the general oxides of nitrogen (NO, NO2, N2O2, etc.) and the general oxides of sulfur (SO2, SO3, etc.) when discussing air pollution, rather than specify any one of the family or list them all.
N2O2 the dimer of NO is covalent
n2o2
C16h10 n2o2
Dinitrogen dioxide
Formula: Al2(N2O2)3
Four, two nitrogen and two oxygen.
N2O i think... di (two), nitrogen (nitrogen), oxide (oxygen)
From the Periodic Table The Atomic mass of Nitrogen (N) is 14 The Atomic mass of Oxygen (O) is 16 Hence the gram formula mass of NO is 14 + 16 = 30 Now NO under certain circumstances can form N2O2 hence the gram formula mass of N2O2 = (2 x 14) + ( 2 x 16) = 28 + 32 = 60 However the empirical formula is the formula with the lowest ratio of atoms. Hence N2O2 lowest ration is NO # formula mass is 30 .
It really depends on which part of the Apollo spacecraft you're talking about. Different sections used different propellants.The first stage of the Saturn V, the S-1C section, burned RP-1 rocket fuel with LOX (liquid oxygen) as the oxidizer.The Saturn V S-II and S-IVB sections (2nd and 3rd stages) burned LOX and liquid hydrogen.The Apollo Command Module used unsymmetrical dimethylhydrazine (UDMH) fuel oxidized by dinitrogen tetroxide (N2O2) for RCS (reaction control system) thrustersThe Service Module used monomethylhydrazine (MMH) oxidized with N2O2 for its RCS attitude thrusters and (UDMH/N2H4) oxidized with N2O2 for the SPS (service propulsion system)The Lunar Module used Aerozine 50 for fuel and N2O4 as oxidizer for the RCS, DPS (descent propulsion) and APS (ascent propulsion) systems
NOx and SOx are the terms used to indicate the general oxides of nitrogen (NO, NO2, N2O2, etc.) and the general oxides of sulfur (SO2, SO3, etc.) when discussing air pollution, rather than specify any one of the family or list them all.
Of the elemental gases and under normal conditions, hydrogen is explosive in the presence of air or oxygen. Under normal conditions there are a large number of inorganic and organic compounds that are explosive gases. Methane, CH4, is explosive in the same way hydrogen is, and so it ethane, propane, butane, .... Gases that are explosive in and of themselves are the various compounds of Nitrogen: NO NO2 N2O2
atmospheric gases that have a green house effect: * NO * NO2 * N2O2 * SO2 * SO3 * H2S * CO * H2O (both positive and negative effects) * O3 (a negative effect of course) * Ar In fact it could be said that any atmospheric gas has some green house impact as all gases have an absorption spectrum and a radiation spectrum.