A solution containing 3.24 g of a nonvolatile nonelectrolyte and 200 g of water boils at 100. `130^(@)"C"` at 1atm. What is the molecular weight of the solute?`("K"_("b") "for water 0.513"^(@)"C"//"m")`

A solution containing 10 g of a non- voltile, higher nonelectrolyte and 400 g of water boils at 100.256^(@)C at 1 atm. The molecular weight of the solute (in g/mol) is Given : (K_(b)" for water "0.512^(@)C//m)

A solution containing 10 g of a non- voltile, higher nonelectrolyte and 400 g of water boils at 100.256^(@)C at 1 atm. The molecular weight of the solute (in g/mol) is Given : (K_(b)" for water "0.512^(@)C//m)

A solution containing 6.35g of a non electrolyte dissolved in 500 g of wate freezes at -0.465^(@)"C". Determine the molecular weight of the solute. ["K"_("f")"for water 1.86"^@)"C"//"m"]

A solution containing 2.44 g of solute dissolved in 75 g of water boiled at 100.413^@C . What will be the molar mass of the solute?

A solution of 2.44xx10^-3 kg of a nonelectrolyte solute dissolved in 0.075 kg of water boiled at 100.413^@C . Calculate the molecular mass of the solute. K_b for water = 0.52 K kg mol^-1

The boiling point of a solution made by dissolving 12.0 g of glucose in 100 g of water is 100.34^(@)C . Calculate the molecular weight of glucose, K_(b) for water = 0.52^(@)C//m .

The boiling point of a solution made by dissolving 12.0 g of glucose in 100 g of water is 100.34^(@)C . Calculate the molecular weight of glucose, K_(b) for water = 0.52^(@)C//m .