sulphur is the central atom it is SP3 hybridised and forms a double bond with one oxygen atom and two coordinate bonds with other two oxygens....
trigonal planar
It depends on the hybridization of the central atom.
sp3
1
sp3. The carbon atoms are tetrahedrally positioned around the central carbon atom.
Single elements on their own do not have a hybridization. Hybridization only occurs when there is a central atom with other elements (or lone pairs) coming off of it.
There are two elements present in sulfur trioxide, which are: Sulfur and Oxygen.The following formula represents sulfur trioxide: SO3As there is one atom of sulfur and three atoms of oxygen (trioxide).
Sp2,120 is the hybridization of the central atom in SO2.
sp2 since the (graphical, with respect to resonance) Lewis structure for NO3- is: one oxygen double bond, the other two is single bond. an electron of N (which have 5 valence e-) is "donated" to O. And an electron gained by the anion is placed on the other O.
As the name implies, its constituent elements are sulfur and oxygen. Sulfur trioxide has the formula SO3, which means it contains one sulfur atom and three oxygen atoms.
sp3d hybridization
How_many_moles_of_each_atom_are_in_2.00moles_of_sulphur_trioxide
Carbon, the central atom, is sp2 hybridized.
The central atom in H2S is sp3 hybridized
In H2O, the central atom is Oxygen atom and it is sp3 hybridised
The hybridization is sp3 as its electron geometry is tetrahedral.
It depends on the hybridization of the central atom.
sp3d is a typical answer - bit this assumes that d orbitals are sigificant in the bonding- you may be being taught differently.