The ideal bond angle of a carbonate ion (CO3^2-) is around 120 degrees. This is because the carbonate ion has a trigonal planar molecular geometry, where the three oxygen atoms are arranged symmetrically around the central carbon atom.
The electronic geometry of sulfite ion (SO3^2-) is trigonal planar. In this structure, there are three regions of electron density around the sulfur atom, forming a trigonal planar shape.
The oxidation number for CO3 with a charge of -2 is 2.
The compound CO3 2- is called carbonate.
The symbol for carbonate ion is CO3^2-, and it has a charge of 2-.
H3O: Trigonal pyramidal CO3^2-: Trigonal planar SF6: Octahedral
trigonal planar, as there are 3 o atoms around c atom and no lone pairs is present.
NH2- is sp3 hybridized and there is 2 bonding and 2 lone pair of electron,that's why shape of NH2 is angular.
Carbon trioxide?..or Carbonate with a 2-? If Carbonate, then it is trigonal planar.
The molecular geometry of the compound CO32- is trigonal planar. It has a single atom of carbon bound to three atoms of oxygen.
Electron geometry for this is tetrahedral. There are two O-F single bonds, which makes 2 electron groups. There are two lone pairs around oxygen, which make up the last two electron groups. Molecules with four electron groups has a tetrahedral Electron geometry.
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.
2
The ideal bond angle of a carbonate ion (CO3^2-) is around 120 degrees. This is because the carbonate ion has a trigonal planar molecular geometry, where the three oxygen atoms are arranged symmetrically around the central carbon atom.
The molecular geometry of Cl2 is linear. This is because Cl2 consists of two chlorine atoms bonded together with a single covalent bond, creating a linear molecular structure.
The electronic geometry of sulfite ion (SO3^2-) is trigonal planar. In this structure, there are three regions of electron density around the sulfur atom, forming a trigonal planar shape.
The oxidation number for CO3 with a charge of -2 is 2.