0
It should be sp3d. first draw the Lewis structure. then you can see the central S atom has 4 bonding pair and 1 lone pair. then draw molecular orbital. Distribute electron according the bonding and lone pair. the paired electron represent lone pair in Lewis structure. and the other unpaired electron distribute in the molecular orbital represent the number of bonding pair in Lewis structure
What else can I help you with?
What is the compound for sulfur tetrafluoride?
The compound for sulfur tetrafluoride is SF4. It consists of one sulfur atom bonded to four fluorine atoms.
What is the formular for sulfur tetrafluoride?
The chemical formula for sulfur tetrafluoride is SF4. It consists of one sulfur atom bonded to four fluorine atoms.
Which compounds is sulfur tetrafluoride SuF4 SF4 SFl S4F?
Sulfur tetrafluoride is represented by the chemical formula SF4. It consists of one sulfur atom bonded to four fluorine atoms. SuF4, SFl, and S4F are not valid representations for sulfur tetrafluoride.
How many electron domains are around the sulfur in SF4?
There are five electron domains around the sulfur atom in SF4. This is due to the presence of one lone pair and four bonding pairs of electrons.
WHAT IS THE CHEMICAL FORMULA OF sulfur tetrafluoride?
The chemical formula for sulfur tetrafluoride is SF4.
What is the compound for sulfur tetrafluoride?
The compound for sulfur tetrafluoride is SF4. It consists of one sulfur atom bonded to four fluorine atoms.
What is the formular for sulfur tetrafluoride?
The chemical formula for sulfur tetrafluoride is SF4. It consists of one sulfur atom bonded to four fluorine atoms.
Which compounds is sulfur tetrafluoride SuF4 SF4 SFl S4F?
Sulfur tetrafluoride is represented by the chemical formula SF4. It consists of one sulfur atom bonded to four fluorine atoms. SuF4, SFl, and S4F are not valid representations for sulfur tetrafluoride.
Why does sf4 have c2v symmetry?
Sulfur tetrafluoride (SF4) has a C2v symmetry due to the presence of a mirror plane and two C2 rotation axes perpendicular to the mirror plane. This symmetry is reflective of the arrangement of the fluorine atoms around the central sulfur atom, resulting in a symmetrical molecular structure.
How many electron domains are around the sulfur in SF4?
There are five electron domains around the sulfur atom in SF4. This is due to the presence of one lone pair and four bonding pairs of electrons.
WHAT IS THE CHEMICAL FORMULA OF sulfur tetrafluoride?
The chemical formula for sulfur tetrafluoride is SF4.
What is the molecular geometry of sulfur tetrafluoride?
The molecular geometry of sulfur tetrafluoride (SF4) is see-saw. This is because it has a central sulfur atom bonded to four fluorine atoms and one lone pair of electrons, leading to a trigonal bipyramidal arrangement.
What is the systematic name for SF4?
The systematic name for SF4 is sulfur tetrafluoride.
How many sets of lone pairs are around sulfur in SF4?
There is one set of lone pairs around sulfur in SF4.
Calculate the formal charge of S in SF4?
The formal charge of an atom is calculated by subtracting the number of lone pair electrons and half the number of bonding electrons from the atom's valence electrons. In SF4, sulfur has 6 valence electrons, is single-bonded to four fluorine atoms, and has one lone pair of electrons. Thus, the formal charge of sulfur in SF4 is 0.
Can you balance this SF4 plus F2 2 SF6?
To balance the equation SF4 + F2 → SF6, you need to ensure the same number of each type of atom on both sides. Starting with one SF4 molecule, it contains one sulfur atom and four fluorine atoms. To balance this with SF6, which has one sulfur atom and six fluorine atoms, you need two F2 molecules to provide the additional two fluorine atoms. Thus, the balanced equation is SF4 + 2F2 → SF6.
Does sf4 contain delocalised pi bonding?
No, sulfur tetrafluoride (SF4) does not contain delocalized pi bonding. In SF4, the sulfur atom forms four sigma bonds with fluorine atoms and has one lone pair of electrons. The bonding in SF4 is primarily characterized by localized sigma bonds rather than delocalized pi bonds, as the molecular structure does not allow for resonance or electron delocalization.
