The boiling point of 0.1 molal `K_4 [Fe(CN)_6 ] ` solution will be (given `K_b` for water = 0.52 k kg mol^(-1))`

The total number of ions furnished by K_4[Fe(CN)_6] in solution is:

The depression of freezing point of watar for a particular solution is 0.186 K. The boiling point of the same solution is _______. (K_(f)= 1.86K kg mol^(-1) and K_(b)= 0.512 K kg mol^(-1))

The freezing point of 0.05 molal solution of non- electrolyte in water is _____. (K_(f) = 1.86 ^(@)Ckg mol ^(-1))

Correct IUPAC name of K_4[Fe(CN)_6]

The boiling point of benzene is 353.23 K. When 1.809 of a non-volatile solute was dissolved in 90 g of benzene, the boiling point is raised to 354.11K. Calculate the molarmass of the solute. K_b for benzene is 2.53 K kg mol^(-1) .

3.795 g of sulphur is dissolved in 100 g of carbon disulfide. This solution boils at 319.81K. What is the molecular formula of sulphure in solution? The boiling point of the solvent is 319.45K. (Given that Kb for CS2 = 2.42 K kg mol(-1) and atomic mass of S = 32)

The boiling point of 0.15 molal aqueous solution of an unknown solute is 373.23 K at 1 atm. The molal elevation constant of water is ______ K kg mol ^(-1)

The boiling point of water (100^(@) C) becomes 100.52 ^(@) C if 3 grams of non-volatile solute is dissolved in 200 mL of water . The molecular weight of solute is ______ (K_(b) "for water is " 0.6K kg mol ^(-1))

The observed depression in the freezing print of water for a particular solution is 0.087 K. Calculate the molality of the solution if molal depression constant for water is 1.86 K kg. mol^(-1) .

Assuming complete dissociation, calculate the molality of an aqueous solution of KBr whose freezing point is -2.95^@C . K, for water is 1.86 K kg mol^(-1) .