Maximum freezing point will be for 1 molal solution
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Hey, mate here is your answer✌✌》》
Since, Maximum freezing point ∝1No of dissociated particles∝1No of dissociated particles
Since, the compounds [Fe(H2O)4Cl2].Cl.2H2O,[Fe(H2O)5Cl].Cl2.H2O[Fe(H2O)4Cl2].Cl.2H2O,[Fe(H2O)5Cl].Cl2.H2O and [Fe(H2O)6].Cl3[Fe(H2O)6].Cl3 has Cl−Cl− as a ligand not attached to the central atom, they dissociate into its constituents.
[Fe(H2O)3Cl3].3H2O[Fe(H2O)3Cl3].3H2O is a single species, because there is no such metal or non-metal not attached to the central atom. So, i = 0
Thus, [Fe(H2O)3Cl3].3H2O[Fe(H2O)3Cl3].3H2O has the maximum freezing point.
Hope this answer will help you..《《
#Be Brainly#
@1Angel24
Since, Maximum freezing point ∝1No of dissociated particles∝1No of dissociated particles
Since, the compounds [Fe(H2O)4Cl2].Cl.2H2O,[Fe(H2O)5Cl].Cl2.H2O[Fe(H2O)4Cl2].Cl.2H2O,[Fe(H2O)5Cl].Cl2.H2O and [Fe(H2O)6].Cl3[Fe(H2O)6].Cl3 has Cl−Cl− as a ligand not attached to the central atom, they dissociate into its constituents.
[Fe(H2O)3Cl3].3H2O[Fe(H2O)3Cl3].3H2O is a single species, because there is no such metal or non-metal not attached to the central atom. So, i = 0
Thus, [Fe(H2O)3Cl3].3H2O[Fe(H2O)3Cl3].3H2O has the maximum freezing point.
Hope this answer will help you..《《
#Be Brainly#
@1Angel24
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