polar covalent bonds within the molecule that are not symmetric
if molecular shape is symmatrical then its non-polar but if it is non symmatrical then its polar.
In polar molecular solids' molecules are held together by relatively stronger dipole-dipole interactions.
non-polar covalent
The difference in electronegativity between S and N is only .5, so it's slightly polar. However, it's not very polar.
"Molecular Bonds"? They don't. Your question makes no sense.
The molecular shape of carbon tetrachloride is a tetrahedron, which negates the polarity of individual bonds, and makes the molecule non-polar.
if molecular shape is symmatrical then its non-polar but if it is non symmatrical then its polar.
All acid groups are polar to greater or lesser degree, irrespective of what they are attached to.
Sodium iodide has ionic bonds, which are always polar. Carbon dioxide and hydrogen gas both have molecular (covalent) bonds; the ones in carbon dioxide are polar and those in elemental hydrogen molecules (H2) are nonpolar.
Due to its molecular geometry, which is bent, SnCl2 is POLAR!
A molecular compound is considered polar if the individual bond dipoles do not cancel each other out due to molecular symmetry. One way to determine if a compound is polar is to look at the electronegativity difference between the atoms in the bond: if there is a significant difference, the bond is likely polar. Additionally, the molecular shape and symmetry can also influence polarity.
In polar molecular solids' molecules are held together by relatively stronger dipole-dipole interactions.
Yes. the dipole moments cancel each other out in the tetrahedral arrangement
Molecular polarity is determined by the overall arrangement of polar bonds within a molecule. If a molecule has polar bonds that are arranged symmetrically, the molecule is nonpolar. However, if the polar bonds are arranged asymmetrically, the molecule is polar. Therefore, the relationship between molecular polarity and bond polarity is that the presence and arrangement of polar bonds within a molecule determine its overall polarity.
non-polar covalent
The difference in electronegativity between S and N is only .5, so it's slightly polar. However, it's not very polar.
"Molecular Bonds"? They don't. Your question makes no sense.