Calculate the molality and van't Hoff factor (i) for the following aqueous solution: 0.675 mass %...

Assuming the van't hoff factor of FeCl3 is 3.4. Calculate the mass of the solute required...

Assuming the van't hoff factor of FeCl3 is 3.4. Calculate the mass of the solute required to produce the aqueous solution of iron chloride that has 300g of water and a boiling point of 103 degrees celcius.

Use the van't Hoff factors in the table below to calculate each colligative property. Table. Van't...

Use the van't Hoff factors in the table below to calculate each colligative property. Table. Van't Hoff Factors at 0.05 m Concentration in Aqueous Solution Solute i Expected i Measured Nonelectrolyte 1 1 NaCl 2 1.9 MgSO4 2 1.3 MgCl2 3 2.7 K2SO4 3 2.6 FeCl3 4 3.4 part b the osmotic pressure of a 0.084 M potassium sulfate solution at 298 K Part c the boiling point of a 1.12 % by mass magnesium chloride solution

Use the van't Hoff factors in the table below to calculate each colligative property. Table. Van't...

Use the van't Hoff factors in the table below to calculate each colligative property. Table. Van't Hoff Factors at 0.05 m Concentration in Aqueous Solution Solute i Expected i Measured Nonelectrolyte 1 1 NaCl 2 1.9 MgSO4 2 1.3 MgCl2 3 2.7 K2SO4 3 2.6 FeCl3 4 3.4 part A) the melting point of a 0.110 m iron(III) chloride solution Express your answer using three significant figures answer in ∘C part B ) the osmotic pressure of a 0.091 M...

Use the van't Hoff factors in the table below to calculate each colligative property. Table. Van't...

Use the van't Hoff factors in the table below to calculate each colligative property. Table. Van't Hoff Factors at 0.05 m Concentration in Aqueous Solution Solute i Expected i Measured Nonelectrolyte 1 1 {\rm NaCl} 2 1.9 {\rm MgSO_4} 2 1.3 {\rm MgCl_2} 3 2.7 {\rm K_2SO_4} 3 2.6 {\rm FeCl_3} 4 3.4 Part A: What is the melting point of a 6.00×10−2m iron(III) chloride solution? Part B: What is the osmotic pressure of a 0.077 {\rm \; {\rm M}}...

For which of the following aqueous solutions would one expect to have the largest van't Hoff...

For which of the following aqueous solutions would one expect to have the largest van't Hoff factor (i)? A.0.110 m K2SO4 B.0.110 m NaCl C.1.100 m K2SO4 D.1.100 m C6H12O6 (glucose) E.1.100 m NaCl

how do i get the van't hoff factor for lithium nitride?

how do i get the van't hoff factor for lithium nitride?

The experimentally measured freezing point of a 1.05 m aqueous solution of AlCl3 is -6.25°C. The...

The experimentally measured freezing point of a 1.05 m aqueous solution of AlCl3 is -6.25°C. The freezing point depression constant for water is Kf = 1.86°C/m. Assume the freezing point of pure water is 0.00°C. Part 1 What is the value of the van't Hoff factor for this solution? Part 2 What is the predicted freezing point if there were no ion clustering in the solution?

A. If an aqueous solution is prepared with molality= 4.58 moles of glycerine/100 kg water, calculate...

A. If an aqueous solution is prepared with molality= 4.58 moles of glycerine/100 kg water, calculate the freezing point of the solution. Kf for water = 1.86C/m. (Glycerine is a molecular solute) b. if an aqueous solution is prepared with molality = 8.21 moles of magnesium chloride/100kg water, calculate the freezing point of the solution. Note : the ionic formula of this salt is MgCl2. C. Calculate the boiling pointof the solution described in question 2b. Given Kb for water=0.520C/m.

An aqueous solution contains 25% HCl by mass. How do I calculate the molality and mole...

An aqueous solution contains 25% HCl by mass. How do I calculate the molality and mole fraction of the solution.

1. experimentally, i ( the van't Hoff factor) is usually less than the ideal value due...

1. experimentally, i ( the van't Hoff factor) is usually less than the ideal value due to the formation of ion pairs. What would the formation of ion pairs do to the concentration of solute in solution? what is the effect of ion pairing on Change in Tf