Trigonal Planar
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electron-pair geometry is octahedral with no LPs and the molecule geometry is octahedral
The sulfur atom has a tetrahedralelectron-pair geometry; the overall molecule has a bentshape.
I'm unsure what the electron pair geometry is but the molecular geometry is Trigonal Planar.
electron pair geometry: octahedral molecular geometry: octahedral
It is a linear molecule, carbon atom forms two double bonds at an angle of 180o O=C=O
Tetrahedral
Yes, SeO2 has covalent bonds. Selenium dioxide (SeO2) is a chemical compound composed of selenium and oxygen atoms that share electrons in covalent bonds to form a stable molecule.
electron-pair geometry is octahedral with no LPs and the molecule geometry is octahedral
Lone pair repulsion affects the molecular geometry of a molecule by pushing other atoms and bonds away, leading to changes in bond angles and overall shape of the molecule.
The sulfur atom has a tetrahedralelectron-pair geometry; the overall molecule has a bentshape.
The presence of 1 lone pair in a molecule affects its molecular geometry by causing repulsion that pushes the bonded atoms closer together. This can lead to a distortion in the molecule's shape, often resulting in a bent or angular geometry.
To determine the structural geometry of a molecule, structural pair geometry must be used. These are the amounts of pairs found surrounding a specific molecule, and they are unique to each type of atom.
Repulsion affect the geometry of a molecule.
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.
The molecular geometry of this molecule is bent. Click on the related link for a Wikipedia article that contains a VSEPR table.
The molecule of ammonia has a trigonal pyramidal shape with angles of 106,7 0.
To determine the structural geometry of a molecule, structural pair geometry must be used. These are the amounts of pairs found surrounding a specific molecule, and they are unique to each type of atom.