With the 5 activation groups, the hybridization of the central atom in the molecules CF4 Cl2CO CH4 CS2 SO2 FCN would be sp3d.
Yes Cl2CO is polar! Because the shape of it is not symmetrical. Hope that helps!
yes
Dipole-Dipole forces and London Forces
The intermolecular forces are ionic for CoCl2 cobalt chloride. For COCl2 Phosgene they are polar covalent.
Valence Electrons: Cl = 7e- so 2 Cl = 14e- C = 4e- O = 6e- So there are 24e- to "play with". C usually has 4 bonds to it, so O is double bonded to C, and the Cl atoms are single bonded to it, forming a trigonal planar geometry. :::Cl\ ____C=O:: :::Cl/ The dots around the atoms represent electrons, and they should be circled around the atom they are near, but it's hard to get the spacing right on here. Also, please ignore the underscore next to the C, that was the only way I could get the spacing right. Hope this helps!
Yes Cl2CO is polar! Because the shape of it is not symmetrical. Hope that helps!
yes
Dipole-Dipole forces and London Forces
The intermolecular forces are ionic for CoCl2 cobalt chloride. For COCl2 Phosgene they are polar covalent.
Valence Electrons: Cl = 7e- so 2 Cl = 14e- C = 4e- O = 6e- So there are 24e- to "play with". C usually has 4 bonds to it, so O is double bonded to C, and the Cl atoms are single bonded to it, forming a trigonal planar geometry. :::Cl\ ____C=O:: :::Cl/ The dots around the atoms represent electrons, and they should be circled around the atom they are near, but it's hard to get the spacing right on here. Also, please ignore the underscore next to the C, that was the only way I could get the spacing right. Hope this helps!