[" 18.Ratio of "(Delta T_(b))/(Delta K_(b))" of "6%AB_(2)" and "9%A_(2)B(AB_(2)" and "A_(2)B],[" both are non-electrolytes) is "1mol/kg" in both cases."],[" Hence,atomic masses of "A" and "B" are respectively "],[[" (a) "60,90," (b) "40,40(c)40,10," (d) "10,40]]

Ratio of DeltaT_(b)//K_(b) of 6% AB_(2) and 9% A_(2)B(AB_(2) and A_(2)B both are non-electrolytes ) is 1 mol/kg in both cases. Hence atomic masses of A and B are respetively.

Ratio of DeltaT_(b)//K_(b) of 6% AB_(2) and 9% A_(2)BAB_(2) and A_(2)B both are non-electrolytes is 1 mol/kg in both cases. Hence atomic masses of A and B are respetively.

Ratio of DeltaT_(b)//K_(b) for 6% AB_(2) "and" 9% A_(2)B (AB_(2) "and" A_(2)B both are non-electrolytes ) is 1 mol/kg in both cases. Hence , atomic masses of A and B are respectively :

Figure explains elevation in boiling point when a non-volatile solute is added to a solvent. Variation of vapour pressure with temperaure and elevation in boiling point is marked. Ratio of DeltaT_(b)//K_(b) of 6% AB_(2) and 9% A_(2)B (AB_(2) and A_(2)B both are non-electrolytes) is 1 mol/kg in both cases. Hence, atomic masses of A and B are respectively.

Ratio of (DeltaT_(b))/(K_(b)) of 10 g AB_(2) and 14g A_(2)B per 100 g of solvent in their respective, solution ( AB_(2) and A_(2)B both are non-electrolytes) is 1 mol/kg in both cases. Hence, atomic wt. of A and B are respectively.

Ratio of (/_\T_(b))/(K_(b)) of 10 g AB_(2) and 14 g A_(2)B per 100 g of solvent in their respective, solution ( AB_(2)and A_(2)B both are non-electrolytes ) is 1 mole/ kg in both cases. Hence, atomic wt. of A and B are respectively :

Ratio of (/_\T_(b))/(K_(b)) of 10 g AB_(2) and 14 g A_(2)B per 100 g of solvent in their respective, solution ( AB_(2)and A_(2)B both are non-electrolytes ) is 1 mole/ kg in both cases. Hence, atomic wt. of A and B are respectively :

Ratio of (triangle T_b)/K_b of 10 g AB_2 and 14 g A_2B per 100 g of solvent in their respective, solution ( AB_2 and A_2B both are non-electrolytes) is 1 mol/kg in both cases. Hence, atomic wt. of A and B are respectively