Yes
The bond in the molecule is covalent.
a hydrogen bond
A molecule with two polar bonds of different polarities can still be polar if the individual bond dipoles do not cancel each other out. The overall polarity of the molecule depends on its geometry and symmetry. If the molecule is linear, it will not be polar regardless of the differing bond polarities. If it is bent or asymmetrical, it will be polar.
No, the CH4 molecule does not have a polar covalent bond because the carbon-hydrogen bonds are nonpolar. Since the four hydrogen atoms are symmetrically arranged around the central carbon atom, the molecule has a symmetrical shape and the individual bond dipoles cancel each other out.
Polar bonds are created when there is an unequal sharing of electrons between atoms in a covalent bond. If a molecule contains polar bonds that are not canceled out by symmetry, the molecule itself will be polar. This is because the bond dipoles do not cancel each other out, leading to an overall dipole moment for the molecule.
Yes, CH2Br2 is a polar molecule due to the unequal distribution of electrons between the carbon and bromine atoms, resulting in a net dipole moment.
non-zero net moment.
Yes, it is true.
The bond in the molecule is covalent.
No, a sugar molecule does not have a polar bond to a gasoline molecule. Sugar molecules mostly contain polar hydroxyl groups, while gasoline molecules are nonpolar hydrocarbons. Therefore, they do not form polar bonds with each other.
Covalent bond.
Yeah, I think it's polar covalent, that is assuming that the F- ions are bonded to Cl. Since Fluorine has greater electronegativity, the electrons will spend more time closer to Fluorine than to Chlorine.
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 bond in CHCl3 is a covalent bond, where atoms share electrons. This bond contributes to the molecule's tetrahedral shape and polar nature. The polar bonds create a dipole moment, making CHCl3 a polar molecule with some degree of solubility in polar solvents.
A polar bond occurs when there is an unequal sharing of electrons between two atoms in a molecule, creating a partial positive and partial negative charge. A polar molecule, on the other hand, is a molecule that has an overall uneven distribution of electron density, resulting in a positive and negative end. In summary, a polar bond refers to the relationship between two atoms, while a polar molecule describes the entire molecule as a whole.
While the sulfur-oxygen bond in SO2 is polar due to the difference in electronegativity between sulfur and oxygen, the overall molecule is considered polar because of its bent shape which results in an uneven distribution of charge. Therefore, SO2 is a polar molecule.
a hydrogen bond