Not really. The closest thing would be molecules with long hydrocarbon chains such as decanal (C10H20O) with the C-O bond being polar. The carbon-hydrogen bonds are technically polar as well, but this polarity is very weak.
Non polar. It is a hydrocarbon and most hydrocarbons are nonpolar.
Be and Cl form an ionic bond (BeCl2), and it is polar.
Calcium hydroxide is ionic, and therefore polarity does not occur.
C-H bond of it is polar.CH4 has four such bonds
Many compounds between nonmetals have this type of bond.
This molecule contains polar covalent bonds.
One example of a compound containing a nonpolar covalent bond is carbon dioxide (CO2). In this molecule, the carbon atom shares electrons with two oxygen atoms in a way that the electron density is symmetrical, resulting in a nonpolar covalent bond.
Phenyl salicylate has covalent bonds, which are typically nonpolar. The molecule is symmetrical and contains nonpolar functional groups, making it nonpolar overall.
Predicting if a covalent compound will be polar or nonpolar based on the elements' positions on the periodic table involves comparing their electronegativities. If the electronegativities of the atoms are similar, the bond is nonpolar. If there is a significant electronegativity difference between the atoms, the bond is polar.
no
Yes, Br2 contains a nonpolar covalent bond. The electronegativity difference between bromine atoms is very small (Br: 2.96), so the bond is nonpolar.
Both actually. It just depends on the electro-negativity of the atoms bonded together. If both have the same electro-negativity, it is a nonpolar covalent bond. Otherwise, you have a polar covalent bond.
If two covalently bonded atoms are identical, the bond is identified as a nonpolar covalent bond.
The bond between nitrogen and oxygen in this compound is a double bond which is covalent.
Non polar. It is a hydrocarbon and most hydrocarbons are nonpolar.
One can determine if a bond is polar or nonpolar by looking at the symmetry of the molecule. If the molecule is symmetrical and the atoms on either side of the bond are the same, the bond is likely nonpolar. If the molecule is asymmetrical or the atoms on either side of the bond are different, the bond is likely polar.
The CO bond in carbon monoxide is polar.