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What makes sf6 to be octahedral molecule?
Sulfur hexafluoride (SF6) is considered an octahedral molecule due to its geometric arrangement of atoms. In SF6, the central sulfur atom is surrounded by six fluorine atoms, which are positioned at the corners of an octahedron. This arrangement minimizes electron pair repulsion according to VSEPR (Valence Shell Electron Pair Repulsion) theory, leading to a symmetrical, octahedral shape. The bond angles in an octahedral molecule are 90 degrees, contributing to its characteristic geometry.
If a molecule has the general formula AX5 but has octahedral molecular geometry what is its molecular shape?
A molecule with the general formula AX5 suggests that it has five bonding pairs of electrons and one lone pair of electrons. In an octahedral arrangement, the presence of one lone pair distorts the geometry, resulting in a square pyramidal molecular shape. Therefore, the molecular shape of AX5 with octahedral geometry is square pyramidal.
How many structures are possible for a octahedral molecule with a formula of AX3Y3?
There is only one possible structure for an octahedral molecule with the formula AX3Y3, where A and X represent the central atom and ligands that form the vertices of the octahedron, while Y represent the ligands at the faces of the octahedron.
What is the molecular shape and name SF6?
Sulfur hexafluoride has an octahedron structure.
Is xenon capable of forming the octahedral geometry?
Yes. it has a pseudo octahedral geometry in XeF6
Geometry for P in PCl6-?
electron-pair geometry is octahedral with no LPs and the molecule geometry is octahedral
How many structures are possible an octahedral molecule with a formula of AX3Y3?
There are two different structures possible in an octahedral molecule with a formula of AX3Y3. The two structures are with each substituent atom in one plane of symmetry according to type, or having 2 in one and the other out.
What makes sf6 to be octahedral molecule?
Sulfur hexafluoride (SF6) is considered an octahedral molecule due to its geometric arrangement of atoms. In SF6, the central sulfur atom is surrounded by six fluorine atoms, which are positioned at the corners of an octahedron. This arrangement minimizes electron pair repulsion according to VSEPR (Valence Shell Electron Pair Repulsion) theory, leading to a symmetrical, octahedral shape. The bond angles in an octahedral molecule are 90 degrees, contributing to its characteristic geometry.
How many atoms in selenium hexafluride?
7. Selenium hexafluoride is SeF6 , an octahedral molecule similar to SF6
If a molecule has the general formula AX5 but has octahedral molecular geometry what is its molecular shape?
A molecule with the general formula AX5 suggests that it has five bonding pairs of electrons and one lone pair of electrons. In an octahedral arrangement, the presence of one lone pair distorts the geometry, resulting in a square pyramidal molecular shape. Therefore, the molecular shape of AX5 with octahedral geometry is square pyramidal.
How many structures are possible for a octahedral molecule with a formula of AX3Y3?
There is only one possible structure for an octahedral molecule with the formula AX3Y3, where A and X represent the central atom and ligands that form the vertices of the octahedron, while Y represent the ligands at the faces of the octahedron.
What is the molecular shape and name SF6?
Sulfur hexafluoride has an octahedron structure.
What is the bond angle for sif6 2?
179 and 103 degrees source and excellent explanation: http://www.madsci.org/posts/archives/2001-02/983324692.Ch.r.html
Is KrF4 sp3d2 octahedral square planar and nonpolar?
KrF4 is square planar with an octahedral electron geometry but square planar molecular geometry. It is a nonpolar molecule because the four fluorine atoms are arranged symmetrically around the central krypton atom, cancelling out any dipole moments.
Is xenon capable of forming the octahedral geometry?
Yes. it has a pseudo octahedral geometry in XeF6
Bond angles for IF6 are 90?
This seems like a misprint. IF6 will have one electron too many to attain an octahedral structure with 90 degree bond angles. SF6 is octahedral, for example, and does have 90 degree angles, as does PF6(-1). Perhaps IF6(+1) is the molecule in question, which will have the proper number of electrons.
Which interstial site is larger octahedral or tetrahedral?
Octahedral sites are larger than tetrahedral sites because octahedral sites have more space available for an atom or ion to occupy. This is because octahedral sites are formed by six atoms or ions arranged in an octahedral shape, while tetrahedral sites are formed by four atoms or ions arranged in a tetrahedral shape.
