Structure 2.2.4—The valence shell electron pair repulsion (VSEPR) model enables the shapes of molecules to be predicted from the repulsion of electron domains around a central atom. Predict the electron domain geometry and the molecular geometry for species with up to four electron domains.

State, giving a reason, the shape of the dinitrogen monoxide molecule.

State, giving a reason, the shape of the dinitrogen monoxide molecule.

State, giving a reason, the shape of the dinitrogen monoxide molecule.

State, giving a reason, the shape of the dinitrogen monoxide molecule.

State, giving a reason, the shape of the dinitrogen monoxide molecule.

State, giving a reason, the shape of the dinitrogen monoxide molecule.

Deduce the molecular geometry of chloramine and estimate its H–N–H bond angle.

Molecular geometry:

H–N–H bond angle:

Deduce the molecular geometry of chloramine and estimate its H–N–H bond angle.

Molecular geometry:

H–N–H bond angle:

Deduce the molecular geometry of chloramine and estimate its H–N–H bond angle.

Molecular geometry:

H–N–H bond angle:

Deduce the molecular geometry of chloramine and estimate its H–N–H bond angle.

Molecular geometry:

H–N–H bond angle:

Deduce the molecular geometry of chloramine and estimate its H–N–H bond angle.

Molecular geometry:

H–N–H bond angle:

Deduce the molecular geometry of chloramine and estimate its H–N–H bond angle.

Molecular geometry:

H–N–H bond angle:

Which combination correctly describes the geometry of the carbonate ion, ${{\mathrm{CO}}_3}^{2-}$?

Which combination correctly describes the geometry of the carbonate ion, ${{\mathrm{CO}}_3}^{2-}$?

Which combination correctly describes the geometry of the carbonate ion, ${{\mathrm{CO}}_3}^{2-}$?

Which combination correctly describes the geometry of the carbonate ion, ${{\mathrm{CO}}_3}^{2-}$?

Deduce the Lewis (electron dot) structure and molecular geometry of sulfur dichloride, SCl₂.

Deduce the Lewis (electron dot) structure and molecular geometry of sulfur dichloride, SCl₂.

Deduce the Lewis (electron dot) structure and molecular geometry of sulfur dichloride, SCl₂.

Sketch the Lewis (electron dot) structure of the P₄ molecule, containing only single bonds.

Sketch the Lewis (electron dot) structure of the P₄ molecule, containing only single bonds.

Sketch the Lewis (electron dot) structure of the P₄ molecule, containing only single bonds.

Sketch the Lewis (electron dot) structure of the P₄ molecule, containing only single bonds.

Sketch the Lewis (electron dot) structure of the P₄ molecule, containing only single bonds.

Sketch the Lewis (electron dot) structure of the P₄ molecule, containing only single bonds.

Sketch the Lewis (electron dot) structure of the P₄ molecule, containing only single bonds.

Sketch the Lewis (electron dot) structure of the P₄ molecule, containing only single bonds.

Sketch the Lewis (electron dot) structure of the P₄ molecule, containing only single bonds.

Sketch the Lewis (electron dot) structure of the P₄ molecule, containing only single bonds.

Sketch the Lewis (electron dot) structure of the P₄ molecule, containing only single bonds.

Sketch the Lewis (electron dot) structure of the P₄ molecule, containing only single bonds.

Explain the electron domain geometry of SO₃.

Explain the electron domain geometry of SO₃.

Explain the electron domain geometry of SO₃.