Yes, Fe(OH)3 is polar because it has a net dipole moment due to the unequal electronegativity between the iron (Fe) and hydroxide (OH) ions. The asymmetrical arrangement of the polar bonds in the molecule results in an overall dipole moment, making it polar.
Vanillin is polar because it has polar functional groups such as hydroxyl and carbonyl groups. These functional groups create uneven distribution of charge within the molecule, making it polar overall.
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.
It is a polar molecule and has polar bonds.
PCl3 has a pyramidal geometry, with three polar P-Cl bonds and one lone pair of electrons. Hence the molecule is polar.
Oxalic acid is a non-polar molecule due to its molecular structure.
Iron III hydroxide
The balanced equation for this reaction is Fe2O3 + 3 H2O = 2 Fe(OH)3.
It isn't.There are no Roman numerals in it.Fe = Iron (from Latin 'ferrum')O = OxygenH = Hydrogen3 = Arabic numeral.
No its not polar
The spectator ions in this reaction are Cl- and Li+. They are present on both sides of the reaction unchanged and do not participate in the main chemical reaction.
Polar contains polar. Non-polar contains nothing.
ClO4 is polar.
Nonpolar
Polar Polar
polar
IOF5 is polar - O has a double bond
Polar