N2 + 3f2 >> 2nf3 ( I see they are messing up the capitalizations again. Those second N and F are capitalized )
Nitrogen oxides are not ionic compounds.
The equation involved is a neutralization reaction. HCl + NaOH -> NaCl + H2O In this reaction, acid and base react to produce a salt.
Mainly because carbon atoms are used as combustible substance, and nitrogen similar to oxigen, is oxidant (promotes the reaction of burning). Both parts are necessary to produce a reaction in very a short time (explosion).
Barium reacts with nitrogen to produce Ba3N2. 3Ba + 2N -> Ba3N2 The is a synthesis reaction.
they produce nitrogen.
The reaction is:N2H4------------------------------(N2H5)+ + (OH)-
3h2 + n2 = 2nh3
Nitrogen oxides are not ionic compounds.
N2 + O2 --> 2NO
The equation involved is a neutralization reaction. HCl + NaOH -> NaCl + H2O In this reaction, acid and base react to produce a salt.
3Br2 + 2N2 ---> 2N2Br3 it's probably wrong but that's what i think.
Iron reacts with oxygen to produce iron oxide.
Nitrogen burns to form Nitrogen Dioxide at about 2200F. It is an exothermic reaction, meaning it will produce heat sufficient to sustain itself if the heat is confined, for example in an internal combustion engine.
It depends on the reaction. Also, only the products are produced by a chemical reaction; the reactants produce the reaction and are changed in the reaction to the products. (If you have a chemical equation, the number of distinct molecules and/or isolated element symbols on the right side of the equation will show how many distinct products are formed in the reaction.)
The chemical equation is N2 + 3H2 -> 2NH3 So reacting 2 moles of N2 will produce 4 moles ammonia.
3Ca + N2 = Ca3N2
The Haber process is the reaction between nitrogen and hydrogen to produce ammonia. An Iron Catalyst is used. The reaction is reversible, so is quite complicated to maintain.