Dinitrogen Trioxide Formula
Dinitrogen Trioxide Formula
Dinitrogen Trioxide Formula (N2O3) is a deep blue chemical compound created by combining equal parts nitrogen dioxide and nitric oxide and cooling the liquid below 21 °C. It is a strong oxidant that is poisonous and corrosive. Students can learn about the Dinitrogen Trioxide Formula, as well as its chemical structure and characteristics, on the Extramarks website.
Dinitrogen Trioxide Properties
- Physical Properties of Dinitrogen Trioxide Formula
It has a deep blue hue to it and dissolves easily in water.
Its boiling point is 3.5-degree C, its melting point is -11.7-degree C and its density is 1.4 grams per cubic cm.
- Chemical Properties of Dinitrogen Trioxide Formula
Although it is not flammable and is a common oxidising agent, mixing it with combustible substances can result in flames. It interacts with reducing agents to produce heat and certain gases as by-products. The end products may be able to undergo further reactions on their own, such as air combustion. In addition, it facilitates phosphine gas ignition. If not properly chilled, a combination containing caprolactam that has been dissolved in acetic acid is exceedingly explosive.
Dinitrogen Trioxide Chemical Structure
Dinitrogen Trioxide Formula chemical formula is N2O3
When water is mixed with unstable nitrous acid, Dinitrogen Trioxide Formula is formed as an anhydride. Nitrous acid, or HNO2, can be broken down into nitric acid and nitric oxide. Nitrite salts are occasionally discovered when N2O3 is mixed with base solutions: One example of an equation is:
N2O3+2NaOH→2NaNO2+H2O
Nitrogen sesquioxide has a monoisotopic mass and an accurate mass of 75.991 grams per mole. The number of hydrogen bond donors is zero, whereas there are four hydrogen bond acceptors. This chemical is canonical, with a total of one covalently bound unit.
Dinitrogen Trioxide Uses
The dinitrogen Trioxide Formula has high combustibility, dinitrogen trioxide is excellent as a special-purpose fuel. The chemical just aids combustion and does not itself burn. The dinitrogen Trioxide Formula is most commonly used as an oxidiser in conjunction with other chemical substances.
