BrF5 is polar. It is polar because it contains molecules that are polar, and it is able to have dipole moments.
Nonpolar
nonpolar
It is nonpolar
nonpolar
Polar substances dissolve other polar substances, and nonpolar substances dissolve other nonpolar substances. A polar substance cannot dissolve a polar substance and a nonpolar substance cannot dissolve a polar substance.
Among the molecules listed, C2Cl4 (dichloroethylene) and C2H2 (acetylene) are nonpolar due to symmetrical molecular arrangements that cancel out dipole moments. The other molecules, BrF5 (bromine pentafluoride), PH3 (phosphine), and ClF3 (chlorine trifluoride), are polar due to uneven distribution of charge resulting in non-zero dipole moments.
Nonpolar
SBr2 is a polar molecule. This is because the S-Br bonds are polar due to the difference in electronegativity between sulfur and bromine. Additionally, the shape of the molecule is angular, which results in an uneven distribution of electron density, making it polar overall.
nonpolar
It is nonpolar
nonpolar
nonpolar
nonpolar
Polar
polar
nonpolar. The fat molecules in peanut butter are nonpolar, that is why peanut butter doesn't evenly mix with water, a polar substance.
ICl4- is polar due to the unequal distribution of charge around the central atom. AsF5 and BrF5 are both polar molecules due to the asymmetrical arrangement of atoms around the central atom. None of these compounds exhibit ionic characteristics as they involve covalent bonding.