The chemical equation is:
2 NaN3 = 2 Na + 3N2
The empirical formula for sodium azide is NaN3.
Sodium azide (NaN3) is a salt composed of sodium (Na+) cations and azide (N3-) anions. The azide anion consists of three nitrogen atoms covalently bonded in a linear arrangement. Sodium azide is commonly used as a source of azide ions in various chemical reactions.
Sodium azide primarily consists of ionic bonding between the positively charged sodium ions (Na+) and the negatively charged azide ions (N3-). This ionic bond is relatively strong and stable.
The compound NaN3 is called sodium azide. It is commonly used as a propellant in airbags and as a reagent in organic synthesis. Sodium azide is highly toxic and should be handled with caution.
No, covalent bonding is not the bonding of sodium azide. Sodium azide is an ionic compound, formed by the transfer of electrons between sodium and azide ions. Covalent bonding involves the sharing of electrons between atoms.
When sodium azide is heated, it decomposes to form sodium metal and nitrogen gas. This reaction occurs at high temperatures, and the sodium azide serves as a source of nitrogen in this decomposition process.
NaN3 (sodium azide) is an ionic compound. It is composed of sodium cations (Na+) and azide anions (N3-) which are held together by ionic bonds due to the transfer of electrons from sodium to azide.
Sodium azide has ionic bonding, where sodium donates an electron to azide. It has a crystalline structure, typically forming white crystals or powder.
it is a solid at room temperature
The conductivity of sodium azide depends on its concentration and the solvent in which it is dissolved. In general, sodium azide is a salt that dissociates into sodium ions (Na+) and azide ions (N3-) in solution. These ions can carry electric current, making sodium azide a conductor. However, its conductivity may not be as high as other salts due to the specific properties of the azide ion.
The molecular mass of sodium oxide is 61.97894.
NaN3