Calculate the freezing point of a one-molar aqueous solution (density 1.06 g `mL_(-1) `) of KBr. `K_"f"` for water = 1.86 K kg `mol^(-1)`. Atomic mass: K = 39, Br = 80.

Calculate the freezing point of a one molar aqueous solutoin (density 1.04gL^-1) of KCl. ( K_f of water=1.86Kg mol^-1 , atomic masses of K=39, Cl=35.5)

Calculate the bolling point of one mole aqueous solution (density 1.06 g cm^(-3) ) of KBr. (Given : K_(b) , for H_(2)O =0.52 K kg mol^(-1) , Atomic mass : K =39 , Br = 80 ]

Calculate the boiling point of a one molar aqueous solution of KBr (density 1.06g mL^-1) . ( K_b for water= 0.52kgmol^-1 , atomic masses: K=39, Br=80)

Calculate the boiling point of a 1M aqueous solution (density 1.04 g Ml^(-1) ) of Potassium chloride (K_(b) " for water " =0.52 K kg "mol"^(-1)," Atomic masse " : K=39u, CI=39.9u) Assume, Potassium chloride is completely dissociated in solution.

Calculate the boiling point of a 1M aqueous solution (density 1.04 g Ml^(-1) ) of Potassium chloride (K_(b) " for water "=0.52 K kg "mol"^(-1)," Atomic mass ":K=39u, CI=39.9 u) Assume, Potassium chloride is completely dissociated in solution.

Calculate the freezing point of an aqueous solution containing 10.50g of MgBr_2 = 184g, K_f for water = 1.86 K kg mol^-1 .