What is i, the van't Hoff term, for the solutes dissolved in water. (assume all dissociate completely): NaCl, NaOH, alcohol(non electrolyte).
NaCl -----------> Na+ + Cl-
NaCl dissociates to 2 ions so
i = 2
NaOH ------------> Na+ + OH-.i = 2
alcohol is non-electrolyte so i = 1
What is i, the van't Hoff term, for the solutes dissolved in water. (assume all dissociate...
1. What is the expected van't Hoff factor for FeCl3? (Assume dilute conditions) A) 1 B) 2 D) 4 C) 3 E) 5 2. Choose the aqueous solution that has the highest boiling point. These are all solutions of nonvolatile solutes and you should assume ideal van't Hoff factors where applicable. A) 0.100 mol kg-1 NaCl B) 0.100 mol kg-1 AlCl3 C) 0.100 mol kg-1 MgCl2 D) 0.100 mol kg-1 C6H1206 E) They all have the same boiling point.
Solutes do not typically exhibit ideal behavior in solution, resulting in non-integer van't Hoff factors. Based on this information, which of the following solutes is most likely present in a 2.12 m aqueous solution with a boiling point of 103.87°C? (Kb for water is 0.512°C/m) NaBr C6H12O6 Na3PO4 Ca(ClO3)2
Which of the following compounds has the lowest van't Hoff factor? What is the van't Hoff factor of NaNO3, Na3PO4, Li2CO3, MgCl2? I calculated them all to be (in order) a van't Hoff factor of 4, 7, 5, and 3. However the lowest van't Hoff factor went to NaNO3. Why?
Ideally, the van't Hoff factor, i, can be determined by the following equation [i = moles of particles/moles of dissolved solute] What I the van't Hoff factor for BeCl_2? 1 2 3 4
QUESTION 2 Solutes that when dissolved in water totally dissociate into ions and conduct electricity very well are: 1. Strong electrolytes 2. Weak electrolytes 3. Nonelectrolytes
At what temperature would a 1.40 m NaCl solution freeze, given that the van't Hoff factor for NaCl is 1.9? Kf for water is 1.86 ∘C/m . Express your answer with the appropriate units.
5) At what temperature would a 1.55 m NaCl solution freeze, given that the van't Hoff factor for NaCl is 1.9? Kf for water is 1.86 .C/m. The freezing point for pure water is 0.0 °C and Kf is equal to 1.86 °C/m.
what is the actual van't hoff factor for an aqueous 0.20 molal solution of FeCl3 if the freezing point is -1.2C? assume the Kf of water is 1.86C/m
colligative properties: freezing point depression. Gen chem 2
HINKI Acetic acid is known as a weak acid (electrolyte) when it is dissolved in water. A solution was prepared by dissolving acetic acid in cyclohexane to yield a concentration of 1.0 molukg. The freezing point depression of the solution was determined to be 13.2 °C. What is the van't Hoff factor for acetic acid dissolved in cyclohexane? Is acetic acid an electrolyte when it is dissolved in cyclohexane? Explain. Kre20 °C/m...
FeCl₃ has a van't Hoff factor of i = 3.40. What is the concentration of particles in a 1.851 M solution of FeCl₃?