Non-polar. Both atoms are the same so there is no uneven distribution of electrons.
N2 is non-polar covalent compound
N2 IS CORRECT. The reason for this is because it is a non polar molecule, there are no polar bonds between each N-N atom and it the least polarizable of the ones listed.
No, ammonia is non-polar.
It's not clear what is being asked as many types of compounds are formed with non-polar bonds, but to be completely non-polar the two atoms involved in the bond must be identical. The diatomic gases, N2, O2, F2, Cl2, Br2, and I2 are all examples. However, diamond is also a perfectly non-polar compound, which is obviously very different from the diatomic molecules listed above.
It is not possible for the polar covalent compound to have a lower melting point than the non-polar covalent compound because they have ionic bonds.
N2 is non-polar covalent compound
It isn't ionic, the H and N are bonded by strong hydrogen bonds, a type of intermolecular force.
Polar, it has a dipole moment of 1.85 D which is very polar.
No. It contains non-polar covalent bond.
Nonpolar like all diatomic elements
normal chromatography based on polarity and non polarity principle If mobile phase is polar, compound is non polar,then non polar compound first elutes as peak and then followed by polar compound reverse chromatography is if the mobile phase is polar, the polar compound first elutes and then followed by non polar compound
N2 IS CORRECT. The reason for this is because it is a non polar molecule, there are no polar bonds between each N-N atom and it the least polarizable of the ones listed.
It is a polar compound.
Polar compound.
Neither polar nor non polar it is an ionic compound.
It is non-polar because it is a carbonic compound.
F2 is non polar. Diatomic molecules composed of two of the same elements are always non-polar. Examples are O2 H2 Cl2 and N2.Nonpolar. No element on its own is polar.