Trigonal Pyramidal
The molecular geometry of NO2 is linear. N(triple bond)N(single bond)O
The molecular geometry of the compound CO32- is trigonal planar. It has a single atom of carbon bound to three atoms of oxygen.
linear, o-o-o **************2nd Opinion ************* Nope, it's bent. VSEPR theory predicts a double bond, a single bond, and a lone pair on the central oxygen atom. You can't really get linear out of that.
the electronic geometry is the arrangement of REDs around the central atom. these REDs consist of both bonding pairs and lone pairs where the bonding pairs can either be single, double or tripple bonds. . REDs ELECTRONIC GEOMETRY 2 LINEAR 3 TRIGONAL PLANAR 4 TETRAHEDRAL 5 TRIGONAL BYPYRAMIDAL 6 OCTAHEDRAL
Molecular geometry is the distances and angles between the each of the different atoms in the molecule. It is essentially the shape of the molecule.Molecular structure includes the shape of the molecule, but also much more, such as its electronic structure. This includes the nature of the bonding in the molecule (such as where there are single, double or triple bonds), the polarity of the molecule (if the electrons are spread out evenly throughout the molecule or if they are concentrated in particular areas, and if so, what areas), etc.
The molecular geometry of NO2 is linear. N(triple bond)N(single bond)O
Since there is 4 electron domains which are all single bonds without any lone pairs, the molecular geometry is tetrahedral.
The molecular geometry of the compound CO32- is trigonal planar. It has a single atom of carbon bound to three atoms of oxygen.
CdCl4 2- has a tetrahedral molecular geometry. Two of the Cl atoms form normal single bonds with Cd and the other two share 2 of their electrons with the empty p-orbital on Cd.
Such a molecule is trigonal but due to presence of lone pair the bond angle is less than 120 degree as HNO2 the central atom is nitrogen. O=N..-OH
linear, o-o-o **************2nd Opinion ************* Nope, it's bent. VSEPR theory predicts a double bond, a single bond, and a lone pair on the central oxygen atom. You can't really get linear out of that.
In molecular geometry, bond length refers to the distance separating nuclei of bonded atoms in a single molecule.
It is not linear, it is bent and the ideal angle is 109.5
Electron Pair Geometry: Tetrahedral Molecular Geometry: Bent
Trigonal pyramidal. As has 5 valence electrons. It forms single bonds with each of the F atoms, donating one electron to each bond. This leaves 2 unbonded electrons, or a single lone pair. Thus the molecule has 4 different groups attached to As, and the electron configuration is tetrahedral. A tetrahedral configuration with one lone pair results in a trigonal pyramidal molecular geometry.
the electronic geometry is the arrangement of REDs around the central atom. these REDs consist of both bonding pairs and lone pairs where the bonding pairs can either be single, double or tripple bonds. . REDs ELECTRONIC GEOMETRY 2 LINEAR 3 TRIGONAL PLANAR 4 TETRAHEDRAL 5 TRIGONAL BYPYRAMIDAL 6 OCTAHEDRAL
Molecular geometry is the distances and angles between the each of the different atoms in the molecule. It is essentially the shape of the molecule.Molecular structure includes the shape of the molecule, but also much more, such as its electronic structure. This includes the nature of the bonding in the molecule (such as where there are single, double or triple bonds), the polarity of the molecule (if the electrons are spread out evenly throughout the molecule or if they are concentrated in particular areas, and if so, what areas), etc.