The geometry of Methane (CH4) is tetrahedron or tetrahedral
The central atom in selenium sulfide has a bent molecular geometry due to the presence of two lone pairs on the selenium atom. This results in a distorted tetrahedral arrangement around the selenium atom.
The molecular geometry around a central atom is the same as the electron group geometry when there are no lone pairs of electrons on the central atom. In such cases, all electron groups (bonding pairs) are arranged symmetrically around the atom, leading to identical geometries. This typically occurs in molecules with linear, trigonal planar, or tetrahedral arrangements, depending on the number of bonding pairs.
If a central atom has sp³d² hybridization, it typically exhibits an octahedral molecular geometry. This geometry arises from the arrangement of six electron pairs around the central atom, resulting in bond angles of 90 degrees between the bonds. In some cases, if there are lone pairs present, the geometry may be altered to a square pyramidal or square planar shape.
tigonal pyramidal
angular with 109.5 degree
The central atom in selenium sulfide has a bent molecular geometry due to the presence of two lone pairs on the selenium atom. This results in a distorted tetrahedral arrangement around the selenium atom.
The geometry of Methane (CH4) is tetrahedron or tetrahedral
The molecular geometry around a central atom is the same as the electron group geometry when there are no lone pairs of electrons on the central atom. In such cases, all electron groups (bonding pairs) are arranged symmetrically around the atom, leading to identical geometries. This typically occurs in molecules with linear, trigonal planar, or tetrahedral arrangements, depending on the number of bonding pairs.
electron pair geometry: octahedral molecular geometry: octahedral
Octahedral
The molecular geometry characterized by 109.5 degree bond angles is tetrahedral. This geometry occurs when a central atom is bonded to four surrounding atoms with no lone pairs on the central atom. An example of a molecule with this geometry is methane (CH4).
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.
- .. SP linear geometry :N=N-o: ..
it may be predicted either by no of electrons around the central atom of the molecule or by type of hybridization process of orbirals of central atom....
The electron-domain geometry of PF6 is Octahedral, since the central atom Phosphorus has an electron pair geometry which is octahedral
A molecule with a tetrahedral geometry has four atoms bonded to a central atom in a symmetrical arrangement, while a molecule with a trigonal pyramidal geometry has three atoms bonded to a central atom in a triangular shape with one lone pair of electrons.
electron-group geometry