Anhydrous `Al Cl_(3)` is covalent . From the data given below
Lattice Energy `=5137KJ//mol`
`DeltaH` hydrogen for `Al^(3+)=-4665KJ//mol`
`DeltaH` hydration for `Cl^(-)=-381KJ//mol`
Identify the correct statement.

Anhydroug A Cl_(3) is covalent . From the data given below Lattice Energy =5137KJ//mol DeltaH hydrogen for Al^(3+)=-4665KJ//mol DeltaH hydration for Cl^(-)=-381KJ//mol Identify the correct statement.

Ionisation energy of A1=5137KJmol^(-1)(DeltaH) hydration of Al^(3+)=-4665KJmol^(-1).(DeltaH)_(hydration) for Cl^(-)=-381KJmol^(-1) . Which of the following statement is correct?

Preduct that anhyrous AICI_(3) is covalent form the data given below, ionisation enegry for AI = 5137 kJ mol^(-1), Delta_(hyd) H for AI^(3+) =- 4665 kJ "mole"^(-1), Delta_(hyd)H for CI^(Theta) =- 381 kJ mol^(-1))

Anhydrous AlCl_(3) is covalent. From the date given below, predict whether it would remain covalent or become ionic in aqueous solution. (Ionisation energy for Al is 1537 kJ mol^(-1) ) Delta_("hydration") for Al^(3+) = - 4665 kJ mol^(-1) Delta_("hydration") for Cl^(Ө) = - 381 kJ mol^-1 .

Anhydrous AlCl_(3) is covalent. From the date given below, predict whether it would remain covalent or become ionic in aqueous solution. (Ionisation energy for Al is 1537 kJ mol^(-1) ) Delta_("hydration") for Al^(3+) = - 4665 kJ mol^(-1) Delta_("hydration") for Cl^(Ө) = - 381 kJ mol^-1 .