I think the original post is confused about the question.
Any covalent bond is polar if there is a significant difference between the electronegativities of the elements participating in the bond. In this case bromine and carbon are significantly different in their electronegativities to justify calling the C-Br bond polar.
I think this is where the confusion arises.
A compound is considered polar if the vector sum of its constituent covalent bonds is realatively large (the definition is somewhat subjective). Normally, one would say one compound is more polar than another compound by comparing their respective vector sums.
In the case of CBr4, each bond is polar, but the vector sum of the 4 dipoles is zero. Any compound whose vector sum is zero is non-polar.
Carbon tetrabromide has a tetrahedral structure.
Carbon tetrabromide has a covalent bond.
The carbon-bromine bond is covalent.
This compound is carbon tetrabromide.
The hybridization of Silicon tetrabromide includes electronegativity of 1,8 and 2,8, respectively. The bond is polar, and the molecule is a nonpolar.
No. A carbon-chlorine bond is a polar covalent bond.
nonpolar
The carbon-bromine bond is covalent.
This compound is carbon tetrabromide.
The hybridization of Silicon tetrabromide includes electronegativity of 1,8 and 2,8, respectively. The bond is polar, and the molecule is a nonpolar.
No. A carbon-chlorine bond is a polar covalent bond.
they share a nonpolar covalent bond
Iodine and Carbon form a covalent bond. Moreover, this bond is nonpolar. Cheers, Caroline
Yes. A bond between two atoms of the same element is nonpolar. Polarity occurs when an atoms with differing electronegativity values bond.
Nonpolar Covalent bond
nonpolar
Rutherfordium tetrabromide and chloride are known today.
The dipoles cancel because they point in opposite directions
Nonpolar covlalent bond