The electron pair geometry for CS2 is Linear.
molecular geometry is bent, electron geometry is tetrahedral
The electron geometry (and also, the molecular geometry) of PF5 is Trigonal Bipyramidal.
The electron-domain geometry of PF6 is Octahedral, since the central atom Phosphorus has an electron pair geometry which is octahedral
It has a triangular planar geometry.
The electron pair geometry for CS2 is Linear.
The electron domain geometry for CS2 is linear, as sulfur has two bonding pairs and no lone pairs of electrons around it.
The electron-pair geometry of CS2 is linear because the Lewis structure is S=C=S. Double bonds act as one electron pair to help determine electron-pair geometries of molecules according to VESPR theory
Carbon disulfide has a linear molecule.
molecular geometry is bent, electron geometry is tetrahedral
The molecular geometry of CS2 is linear. This molecule consists of a central carbon atom bonded to two sulfur atoms, and there are no lone pairs on the central atom. The bonds and atoms are arranged in a straight line, giving it a linear molecular geometry.
The electron pair geometry of CS2 is linear. This is because the central sulfur atom has two electron pairs around it, which repel each other as far apart as possible, resulting in a linear molecular geometry.
The electron geometry (and also, the molecular geometry) of PF5 is Trigonal Bipyramidal.
The electron-domain geometry of PF6 is Octahedral, since the central atom Phosphorus has an electron pair geometry which is octahedral
The bond angle of carbon disulfide (CS2) molecule is 180 degrees, which forms a linear molecular geometry.
I'm unsure what the electron pair geometry is but the molecular geometry is Trigonal Planar.
The electron geometry ("Electronic Domain Geometry") for PF3 is tetrahedral. The molecular geometry, on the other hand, is Trigonal Pyramidal.