4 removed obnoxious MathJax
source | link

Yes, Borazine is aromatic.

By Hückel’s RuleAccording to Hückel’s rules, a compound is aromatic if it satisfies three conditions:

  1. Planarity
  2. Complete delocalisation of $\pi-electrons$π-electrons
  3. Presence of (4n+2)$(4n+2)$ electrons where n$n$ can be 1,2,3...$1, 2, 3, \dots$.

Borazine is aromatic as there are 3 Nitrogennitrogen atoms in the structure of borazine that donate two electrons each. Boron doesn't donate any, but it has an empty $p-orbital$p-orbital available through which the electrons can delocalize. Hence, in total it has 6 $\pi-electrons.$π-electrons. Though the delocalisation is lesser than that in benzene, it still is aromatic.

FunFactFunFact: Borazine is also called inorganic benzene because of its resemblance to benzene by structure.

Yes, Borazine is aromatic.

By Hückel’s Rule, a compound is aromatic if it satisfies three conditions:

  1. Planarity
  2. Complete delocalisation of $\pi-electrons$
  3. Presence of (4n+2) electrons where n can be 1,2,3....

Borazine is aromatic as there are 3 Nitrogen atoms in the structure of borazine that donate two electrons each. Boron doesn't donate any, but it has an empty $p-orbital$ available through which the electrons can delocalize. Hence, in total it has 6 $\pi-electrons.$ Though the delocalisation is lesser than that in benzene, it still is aromatic.

FunFact: Borazine is also called inorganic benzene because of its resemblance to benzene by structure.

Yes, Borazine is aromatic.

According to Hückel’s rules, a compound is aromatic if it satisfies three conditions:

  1. Planarity
  2. Complete delocalisation of π-electrons
  3. Presence of $(4n+2)$ electrons where $n$ can be $1, 2, 3, \dots$.

Borazine is aromatic as there are 3 nitrogen atoms in the structure of borazine that donate two electrons each. Boron doesn't donate any, but it has an empty p-orbital available through which the electrons can delocalize. Hence, in total it has 6 π-electrons. Though the delocalisation is lesser than that in benzene, it still is aromatic.

FunFact: Borazine is also called inorganic benzene because of its resemblance to benzene by structure.

3 Formatting
source | link

Yes, Borazine is aromatic.

By Hückel’s Rule, a compound is aromatic if it satisfies three conditions:

  1. Planarity
  2. Complete delocalisation of pi electrons$\pi-electrons$
  3. Presence of (4n+2) electrons where n can be 1,2,3....

Borazine is aromatic as there are 3 Nitrogen atoms in the structure of borazine that donate two electrons each. Boron doesn't donate any, but it has an empty p orbital$p-orbital$ available through which the electrons can delocalize. Hence, in total it has 6 pi electrons.$\pi-electrons.$ Though the delocalisation is lesser than that in benzene, it still is aromatic.

FunFact: Borazine is also called inorganic benzene because of its resemblance to benzene by structure.

Yes, Borazine is aromatic.

By Hückel’s Rule, a compound is aromatic if it satisfies three conditions:

  1. Planarity
  2. Complete delocalisation of pi electrons
  3. Presence of (4n+2) electrons where n can be 1,2,3....

Borazine is aromatic as there are 3 Nitrogen atoms in the structure of borazine that donate two electrons each. Boron doesn't donate any, but it has an empty p orbital available through which the electrons can delocalize. Hence, in total it has 6 pi electrons. Though the delocalisation is lesser than that in benzene, it still is aromatic.

FunFact: Borazine is also called inorganic benzene because of its resemblance to benzene by structure.

Yes, Borazine is aromatic.

By Hückel’s Rule, a compound is aromatic if it satisfies three conditions:

  1. Planarity
  2. Complete delocalisation of $\pi-electrons$
  3. Presence of (4n+2) electrons where n can be 1,2,3....

Borazine is aromatic as there are 3 Nitrogen atoms in the structure of borazine that donate two electrons each. Boron doesn't donate any, but it has an empty $p-orbital$ available through which the electrons can delocalize. Hence, in total it has 6 $\pi-electrons.$ Though the delocalisation is lesser than that in benzene, it still is aromatic.

FunFact: Borazine is also called inorganic benzene because of its resemblance to benzene by structure.

2 added 86 characters in body
source | link

Yes, Borazine is aromatic.

By Hückel’s RuleHückel’s Rule, a compound is aromatic if it satisfies three conditions:

  1. Planarity
  2. Complete delocalisation of pi electrons
  3. Presence of (4n+2) electrons where n can be 1,2,3....

Borazine is aromatic as there are 3 Nitrogen atoms in the structure of borazine that donate two electrons each. Boron doesn't donate any, but it has an empty p orbital available through which the electrons can delocalize. Hence, in total it has 6 pi electrons. Though the delocalisation is lesser than that in benzene, it still is aromatic.

FunFact: Borazine is also called inorganic benzene because of its resemblance to benzene by structure.

Yes, Borazine is aromatic.

By Hückel’s Rule, a compound is aromatic if it satisfies three conditions:

  1. Planarity
  2. Complete delocalisation of pi electrons
  3. Presence of (4n+2) electrons where n can be 1,2,3....

Borazine is aromatic as there are 3 Nitrogen atoms in the structure of borazine that donate two electrons each. Boron doesn't donate any, but it has an empty p orbital available through which the electrons can delocalize. Hence, in total it has 6 pi electrons.

FunFact: Borazine is also called inorganic benzene because of its resemblance to benzene by structure.

Yes, Borazine is aromatic.

By Hückel’s Rule, a compound is aromatic if it satisfies three conditions:

  1. Planarity
  2. Complete delocalisation of pi electrons
  3. Presence of (4n+2) electrons where n can be 1,2,3....

Borazine is aromatic as there are 3 Nitrogen atoms in the structure of borazine that donate two electrons each. Boron doesn't donate any, but it has an empty p orbital available through which the electrons can delocalize. Hence, in total it has 6 pi electrons. Though the delocalisation is lesser than that in benzene, it still is aromatic.

FunFact: Borazine is also called inorganic benzene because of its resemblance to benzene by structure.

1
source | link