it is linear
The relationship between molecular geometry and O2 bond angles is that the molecular geometry of O2 is linear, meaning that the bond angle between the two oxygen atoms is 180 degrees.
The O2 bond angle in molecular geometry is significant because it determines the shape of the molecule and affects its properties. The angle influences the overall structure and stability of the molecule, as well as its reactivity and interactions with other molecules.
The molecular geometry of HClO is bent.
The molecular geometry of N2O2 is linear.
The molecular geometry of NHF2 is trigonal pyramidal.
The relationship between molecular geometry and O2 bond angles is that the molecular geometry of O2 is linear, meaning that the bond angle between the two oxygen atoms is 180 degrees.
The O2 bond angle in molecular geometry is significant because it determines the shape of the molecule and affects its properties. The angle influences the overall structure and stability of the molecule, as well as its reactivity and interactions with other molecules.
The molecular geometry is octahedral.
The molecular geometry of C2H2Br2 is trigonal planar.The molecular geometry of C2H2Br2 is trigonal planar.
The molecular geometry of secl2 is BENT.
The molecular geometry of HClO is bent.
The molecular geometry of N2O2 is linear.
The molecular geometry of IF4- is square planar.
The molecular geometry of NHF2 is trigonal pyramidal.
See-saw is the molecular geometry, and trigonal bi-pyramidal is the orbital geometry.
The molecular geometry of SO2 is bent, and the electron pair geometry is trigonal planar.
Molecular geometry is tetrahedral has no lone pairs