Non-polar
No, the polarity of water contrasts with and repels the nonpolar substane that is cyclohexane.
No. Cyclohexane is non-polar and water is polar, and so they will not mix with each other.
Cyclohexane is flammable.
Cyclohexane (C6H12) is a cycloalkane, not an esther.
Cyclohexane is a colorless and odorless liquid at room temperature. It does not have a noticeable odor.
No, the polarity of water contrasts with and repels the nonpolar substane that is cyclohexane.
Water does not mix with cyclohexane because water is polar and cyclohexane is nonpolar. They will form two separate layers, with water on top and cyclohexane on the bottom, due to their difference in polarity. This separation is due to the principle of "like dissolves like," where polar substances dissolve in polar solvents and nonpolar substances dissolve in nonpolar solvents.
Cyclohexane is a nonpolar molecule, while water is a polar molecule. When 6 drops of cyclohexane are added to 2 mL of water, the two substances will not mix due to the difference in polarity, with the cyclohexane forming a separate nonpolar layer on top of the polar water layer.
No. Cyclohexane is non-polar and water is polar, and so they will not mix with each other.
Cyclohexane is flammable.
No, sodium chloride is not soluble in cyclohexane.
Cyclohexane (C6H12) is a cycloalkane, not an esther.
Bromine (Br2) dissolves in cyclohexane due to its nonpolar nature, which is similar to cyclohexane's nonpolar composition. In contrast, bromine does not dissolve in water because water is a polar solvent and bromine is nonpolar, leading to poor solubility due to the mismatch in polarity.
No, cyclohexane does not produce ions in water. Since cyclohexane is a nonpolar molecule, it does not dissociate into ions when placed in an aqueous solution.
When bromine is added to cyclohexane, bromination of the cyclohexane molecule may occur. This involves the substitution of a hydrogen atom in the cyclohexane ring with a bromine atom. This reaction can result in the formation of a new compound with bromine substituents on the cyclohexane ring.
Cyclopentane contains covalent bonds. Covalent bonds are formed by sharing electrons between atoms, which is the case in cyclopentane. Ionic bonds involve the transfer of electrons from one atom to another.
In cyclohexane molecule are the bonds are covalent (sigma) bonds.