The freezing point of a hypothetical liquid is -35 degrees C and its empirical freezing point constant is 2.5 K*kg/mol
a) What is the freezing point of a 0.055 m glucose solution of this liquid? Show work
b) Assuming complete dissociation of the salt, what is the freezing point of a 0.15 m MgCl2 solution of this liquid? Show work
c) The freezing point of a 0.15m MgCl2 solution of this liquid is found to be -35.88 degrees C. What is the experimental van't Hoff factor of MgCl2 in this liquid? Show work
I only got partial credit on A. and I missed b and c completely
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The freezing point of a hypothetical liquid is -35 degrees C and its empirical freezing point...
Calculate the molality of an aqueous solution of KBr whose freezing point is -4.95 degrees celsius. The Kf of water is 1.86 degrees C/m. Calculate the ideal Van't Hoff factor for KBr? Show work
Freezing point depression can be used to experimentally determine the van't Hoff factor of a solute in solution. Given the data in the table, please answer the questions below and determine the "real" van't Hoff factor of the solute. Experimental Results Mass of solvent (water) Freezing point of water Freezing point depression constant (Kf) of water Mass of solution Freezing point of solution 8.515 g 0.00°C 1.86°C/m 9.3589 -5.45°C a. What mass of solute was used? b. What is the...
1. What is the freezing point depression for the unknown solution for each trial? 2. How do you determine the van't Hoff factor for each trial, and what is the average van't Hoff factor? Trial 1: 18mL of 0.200 m unknown, ionic compound solution initial temp: 17.90 degrees C. observed freezing point of solution: -1.55 degrees C. Observed freezing point of water: -0.84 degrees C. Trial 2: 20 mL of 0.200 m unknown, ionic compound solution initial temp: 17.66 degrees...
Eicosene is a molecular compound and nonelectrolyte with the empirical formula CH2. The freezing point of a solution prepared by dissolving 100mg of eicosene in 1.00g Benzene was 1.75 degrees C lower than the freezing point of pure benzene. What is the molar mass of eicosene if Kf for benzene is 4.90 Degrees C/m?
What is the freezing point of an aqueous 1.00 m NaCl solution? (Kf = 1.86 *C/m) (Assume complete dissociation of the salt.) I know the answer is -3.78*C but I cannot figure out how to get it. I keep getting -1.86*C. Please show step by step so I can understand. Thank you.
Colligative properties, such as boiling point elevation, depend on the number of dissolved particles in solution. For nonelectrolytes, no dissociation occurs, and so you can use the number of moles of solute to calculate both molality and molarity. In contrast, electrolytes dissociate, and therefore the molality and molarity must be calculated based on the number of moles of dissociated particles or ions. There are two ions per formula unit of NaCl. Therefore, we would expect the freezing-point depression ΔTf of...
Post-Lab Material Experiment 19 Data and Calculations: Molar Mass Determination by Depression of the Freezing Point 0.3 Name Section A. Measured Freezing Point of Pure Water B. Finding the Freezing Point of a Solution of Liquid Unknown Target mass of solute (Calculated based on the parameters in the instructions) Unknown # Liquid 3.5 Actual mass of solute used Trial Freezing point of solution (observed) -3.0 Mass of solution 116.6 Trial II Freezing point of solution -3.3 Mass of solution 101.3....
If 15.0g of AlClsubscript(3) were added to the ice-water mixture, what would be the freezing point of the solution? Assume the experimental volume of solution was 65.3 mL, the experimental freeing point of solvent water was 0.5 degrees C, and Ksubscript(f) was 1.86 degreesC/M. Please show all work and math, this is for a lab report. Thank you!!
Calculate the freezing point (in degrees C) of a solution made by dissolving 3.79 g of anthracene{C14H10} in 81.1 g of benzene. The Kfp of the solvent is 5.12 K/m and the normal freezing point is 5.5 degrees C
Pre-Laboratory Questions 1. The freezing point of 20.024 grams of distilled water was determined by recording a thermogram (see plot below). 1.006 grams of an unknown, nonelectrolyte compound was added to the water, and a second thermogram was recorded to determine the freezing point of the solution. Freezing Point Curves for Water and Unknown Nonelectrolyte Temperature, c -Water -0.270 °C Time, s a. Determine the freezing point depression, Tg, for the unknown solution. b. Determine the molality, m, of the...