d. none of the above. Sodium Iodide is a bipolar tricyclic anachronism for the benzopyrosychosamine family of isotropic nanofamilia common in theberstoscoles reactions associated with thermocrystalline reductions. Great care must be taken when handling this volotile substance.
Sodium iodide is an ionic molecule since an ionic bond is formed by the transfer of electrons from sodium to iodine molecule.
However, according to the Electronegativity difference between the two elements (Na and I) you will receive a change of <1.7
But, if you try to bond the two bonds covalently, it will create a quadruple bond to abide the octet rule. Because quadruple bonds cannot exist, and have not existed to this day, Sodium Iodide is in fact an ionic molecule.
Iodine is a molecule with two idodine atoms and it is a non-polar substance.
Iodine is a non polar covalent molecule. The electron cloud is evenly shared around the molecule.
Ionic
Iodine is a non polar covalent present in all phases as I2
Iodine molecules containing two atoms of iodine (I2) each are non-polar.
nonpolar covalent
IBr iodine monbromide is covalent- and the electronegativity difference is small- so nonpolar
pentane is nonpolar covalent compound
Iodine is a non polar covalent present in all phases as I2
nonpolar covalent
Iodine molecules containing two atoms of iodine (I2) each are non-polar.
pentane is nonpolar covalent compound
Ionic
IBr iodine monbromide is covalent- and the electronegativity difference is small- so nonpolar
Polar covalent
polar covalent
This bond is nonpolar covalent.
No, it is non-polar.
Polar covalent. The difference in electronegtivity is insufficient for an ionic bond
The formual is suspect- such a compound would be covalent.