sodium azide, NaN3.
This odorless gas is commonly found in air bags for cars.
when sodium azide is ignited it decomposes to produce sodium as a solid and nitrogen as a gas. 2NaN3(s) -> 2Na(s) + 3N2(g)
if we belong to industrial product producing nitrogen gas, is it also applicable to use our product on food processing preservation?
Na2o
Ammonia and Nitrogen Dioxide. I think.
2NaBr (s) + Cl2 (g) --------> 2NaCl (s) + Br2 (g)
The products of sodium when it is react with water are Sodium Hydroxide solution and hydrogen gas plus heat.
orbits
The product of the synthesis reaction between sodium and chlorine gas is
when sodium azide is ignited it decomposes to produce sodium as a solid and nitrogen as a gas. 2NaN3(s) -> 2Na(s) + 3N2(g)
The airbags inflation system reacts sodium azide with potassium nitrate to produce nitrogen gas. Hotblast of the nitrogen gas inflate the airbag.
Nitrogen gas is used in product packing to expel oxygen, this helps the product stay fresher for longer.
If you think that zinc nitrate is zinc and nitrogen and gas and sodium chloride is sodium and chlorine and gas Sodium is in first group of periodic table (the reactive metals) and zinc is lower down in this group so you have so far zinc + sodium = sodium zincide (sodium is more reactive) Now you have Nitrogen (forms to nitrate) - Gas chlorine (forms to nitrate) - Gas and substance Nitrogen wins So.... o overall we have zinc nitrate + sodium chloride = sodium nitrazink Which means The reaction is fizzing and compression with gases
Initially, air bags contain sodium azide (NaN3), which is ignited to produce nitrogen gas and sodium. The nitrogen gas is what inflates the air bag. Another reaction occurs, including sodium and potassium nitrate which produce more nitrogen gas, potassium oxide and sodium oxide. Potassium oxide and sodium oxide are quite harmful, so they are then neutralized with silicon dioxide to produce silica glass (K4SiO4 and Na4SiO4).
H2o+no2
Four moles of sodium plus 1 mole of oxygen gas produces 2 moles sodium oxide. 4Na + O2 --->2Na2O
Nitrogen gas which is created by mixing sodium azide with potassium nitrate which produces the nitrogen.
sodium hypobromite reacts with urea and nitrogen gas is released as brisk effervesence