True
Yes, that is correct. Polar molecules have an uneven distribution of electron density, resulting in distinct positive and negative poles. This polarity is often due to differences in electronegativity between the atoms within the molecule.
Which of these molecules is polar
Hold polar molecules together
Polar molecules reacts with polar molecules and non-polar molecules react with non-polar molecules.
b c polar molecules are easily soluable in water thanthe non polar molecules
Yes, that is correct. Polar molecules have an uneven distribution of electron density, resulting in distinct positive and negative poles. This polarity is often due to differences in electronegativity between the atoms within the molecule.
AlCl3 is the only non-polar molecule in the list provided. The other molecules (CO, SO2, and NO) have polar covalent bonds due to differences in electronegativity between the atoms involved, making them polar molecules. AlCl3 has a symmetrical arrangement of polar covalent bonds, resulting in a non-polar molecule overall.
Which of these molecules is polar
Water is polar while oils are non-polar. Molecules that are polar will mix with other polar molecules, and non-polar molecules will mix with other non-polar molecules. Polar and non-polar molecules will not mix.
CO
Hold polar molecules together
Nonpolar substances are not attracted to the polar molecules in the solvent due to differences in their electrical charges. This results in weak intermolecular forces between the nonpolar substance and the polar solvent, making dissolution less likely. Thus, nonpolar substances tend to remain clustered together rather than dispersing in the polar solvent.
Water molecules are polar molecules. Both of the bonds inside the molecule are polar bonds.
No, sugars are polar molecules considering that they will interact and dissolve in water (which is also a polar molecule). Polar molecules will only interact with other polar molecules and vice-versa.
Polar molecules reacts with polar molecules and non-polar molecules react with non-polar molecules.
A polar solute is expected to be soluble in a non-polar solvent. This is because "like dissolves like" – polar molecules tend to dissolve in polar solvents, and non-polar molecules dissolve in non-polar solvents.
Non-polar molecules are generally more attracted to other non-polar molecules due to the similar distribution of electronic charge. This attraction is known as London dispersion forces. Polar molecules tend to interact with other polar molecules through stronger dipole-dipole interactions or hydrogen bonding.