The molecular size of Icl and `Br_(2)` is approximately same, but b.p. of Icl is about `40^(@)C` higher than that of `Br_(2)`. It is because :

The critical temperature of water is higher than that of CO_(2) because the H_(2)O molecular has

Colouration of Br_(2)//C Cl_(4) will be discharged by

Cl_(2 is stronger ………………….. agent then Br_(2) and I_(2) as its reduction potential is ……………………… than that of Br_(2) and I_(2)

Br_(2) gas is of red brown colour and I_(2) gas is of violet volour. This is because of

The value of K_(p) for the reaction at 27^(@)C Br_(2)(l)+CI_(2)(g)hArr2BrCI(g) is 1atm . At equilibrium in a closed container partial pressure of BrCI gas 0.1atm and at this temperature the vapour pressure of Br_(2)(l) is also 0.1 atm. Then what will be minimum moles of Br_(2)(l) to be added to 1 mole of CI_(2) , initially, to get above equilibrium stiuation,

Assertion (A) : The molecularity of the reaction H_(2) + Br_(2) rarr 2HBr is 2 . Reason (R ): The order of the reaction is 3//2 .

Br_(2) and I_(2) are added to a solution containing 1M each of Br^(c-) and I^(c-) . What reaction will occur ?

Cl_(2) and Br_(c-) are added to a solution containing 1M each of Cl^(c-) and Br^(c-) . What reaction will occur ?

Propionic acid with Br_(2) / P yields a dibromo product. Its structure would be