Polar covalent. There is a significant difference in electronegativity between C and F.
Nitrogen gas (N-N) is a nonpolar molecule because nitrogen and nitrogen atoms have similar electronegativities and do not have a significant difference in charge distribution. This results in a symmetrical distribution of electrons around the molecule, making it nonpolar.
Nitrogen gas (N2) is nonpolar because the two nitrogen atoms are identical and share electrons equally due to their equal electronegativity. This balanced sharing of electrons results in a nonpolar molecule.
The shape of molecule is two symmetrical triangle. Electronegativities of C and H are different, therefore C - H bonds polar, but C = C bond is nonpolar. Since the molecule is symmetrical there is an even charge distribution, and hence the molecule is nonpolar.
Nonpolar
nonpolar
Nonpolar
Nitrogen gas (N-N) is a nonpolar molecule because nitrogen and nitrogen atoms have similar electronegativities and do not have a significant difference in charge distribution. This results in a symmetrical distribution of electrons around the molecule, making it nonpolar.
C=C=C-OH C3H6O very much polar with the OH group
Polar covalent. There is a significant difference in electronegativity between C and F.
Nitrogen gas (N2) is nonpolar because the two nitrogen atoms are identical and share electrons equally due to their equal electronegativity. This balanced sharing of electrons results in a nonpolar molecule.
The shape of molecule is two symmetrical triangle. Electronegativities of C and H are different, therefore C - H bonds polar, but C = C bond is nonpolar. Since the molecule is symmetrical there is an even charge distribution, and hence the molecule is nonpolar.
CH3Br is a nonpolar molecule. Although the C-Br bond is polar due to the electronegativity difference between carbon and bromine, the overall molecule is nonpolar because of its symmetrical tetrahedral molecular geometry.
Nonpolar
nonpolar
It is nonpolar
C-H bond of it is polar.CH4 has four such bonds
Most alkenes are not soluble in water because they are nonpolar molecules, whereas water is a polar solvent. The lack of polarity in alkenes makes them ineffective at forming hydrogen bonds with water molecules, resulting in poor solubility.