tetrahedral
The electron pair geometry of each carbon atom in an alkane is tetrahedral. This is because each carbon atom is bonded to four other atoms, which results in a geometry where the electron pairs are distributed in a tetrahedral arrangement around the carbon atom.
Repulsion affect the geometry of a molecule.
The hybridization of the valence electrons on the nitrogen atom in NO+ is sp. The electron pair geometry is linear, and the shape of the ion is also linear.
Electron geometry describes the arrangement of electron pairs around a central atom in a molecule, based on the total number of electron pairs (bonding and nonbonding). Molecular geometry, on the other hand, describes the arrangement of atoms, taking into account only the positions of the atoms. They will not be the same when there are lone pairs of electrons on the central atom. In such cases, the electron geometry is determined by all electron pairs, whereas the molecular geometry considers only the positions of the atoms, leading to a difference.
The electron pair geometry for CS2 is Linear.
I'm unsure what the electron pair geometry is but the molecular geometry is Trigonal Planar.
electron pair geometry: octahedral molecular geometry: octahedral
the electron pair geometry would be trigonal planar because there is a lone pair on the oxygen atom. The molecular pair geometry would be bent
The electron-domain geometry of PF6 is Octahedral, since the central atom Phosphorus has an electron pair geometry which is octahedral
Trigonal Bipyramidal
octahedral
Linear
The electron pair geometry of ammonia is tetrahedral, with one lone pair and three bonded pairs around the central nitrogen atom.
electron-pair geometry is octahedral with no LPs and the molecule geometry is octahedral
trigonal planar
octahedral