1.
In chlorobenzene, the Cl-atom is linked to a sp2 hybridized carbon atom. In cyclohexyl chloride, the Cl atom is linked to a sp3 hybridized carbon. Now, sp2 hybridized carbon has more s-character than sp3 hybridized carbon atom. Therefore, the former is more electronegative than the latter. Therefore, the density of electrons of C-Cl bond near the Cl atom is less in chlorobenzene than in cyclohexyl chloride. Moreover, the-R effect of the benzene ring of chlorobenzene decreases the electron density of the C-Cl bond near the Cl-atom. As a result, the polarity of C-Cl bond in chlorobenzene decreases. Hence, the dipole moment of chlorobenzene is lower than that of cyclohexyl chloride.
2. To be miscible with water, the solute-water force of attraction must be stronger than the solute solute and water-water forces of attraction. Alkyl halides are polar molecules and so held together by dipole-dipole interactions. Similarly, strong H-bonds exist between the water molecules. The new force of attraction between the alkyl halides and water molecules is weaker than the alkyl-halide- alkyl halide and water-water forces of attraction. Hence, alkyl halides (though polar) are immiscible with water.
3. Grignard reagents are very reaction. In the presence of moisture, they react to give alkanes
R-Mg-X + H2O → RH + Mg(OH)X
Therefore, Grignard reagents should be prepared in anhydrous conditions.
