A 0.194 g sample of a nonvolatile solid solute dissolves in 9.82 g of cyclohexane.? the...

A 0.194 g sample of a nonvolatile solid solute dissolves in 9.82g of cyclohexane.The change in...

A 0.194 g sample of a nonvolatile solid solute dissolves in 9.82g of cyclohexane.The change in the freezing point of the solution is 2.94 Celsius. a). What is the molarity of the solute in the solution? b). Calculate the molar mass of the solute to the correct number of sig fig. c). The same mass of solute is dissolved in 9.82g of t-butanol instead of cyclohexane. What is the expected freezing point change of this solution?

1. A 0.250 g sample of a non‐volatile solid dissolves in 15.0 g of tert‐butanol (Freezing...

1. A 0.250 g sample of a non‐volatile solid dissolves in 15.0 g of tert‐butanol (Freezing point 25.5 degrees C, Kf=9.1C/m).  The freezing point of the solution is 20.7 degrees C. a. What is the molality of the solute in the solution? b. Calculate the molar mass of the solute. c. The same mass of solute, 0.250 g, is dissolved in 15.0 g of ethylene glycol (Freezing point= -12.7C, Kf=3.11C/m) instead of tert‐butanol.  What is the expected freezing point change of this...

Data were collected to determine the molar mass of a nonvolatile solid solute dissolved in cyclohexane....

Data were collected to determine the molar mass of a nonvolatile solid solute dissolved in cyclohexane. Complete the table for the analysis. Record calculated values with the correct number of significant figures. Show detailed calculations to the right of the table. Volume of cyclohexane (mL): 15.5 Mass of cyclohexane (kg): _________ Mass of added solute (g): 0.1660 Kf for cyclohexane (˚C/m): 20.0 Freezing point change, ΔTf (˚C): 2.20 Moles of solute (mol): _________ Molar mass of solute (g/mol): _________

A solution is prepared by dissolving 0.24 g of a solute in 12.7 g of cyclohexane....

A solution is prepared by dissolving 0.24 g of a solute in 12.7 g of cyclohexane. What is the freezing point change, rTf? Round off answer to to one place after the decimal: __ . __ °C (MM, molar mass of solute = 128.19 g/mol)

Consider that you prepared a solution by mixing 0.14 g organic solute with 7.81 g of...

Consider that you prepared a solution by mixing 0.14 g organic solute with 7.81 g of cyclohexane. If you measured that the freezing point of the solution was 4.86 oC, what is the molar mass of the organic solute? Cyclohexane has a freezing point of 6.55oC and Kf= -20.2 °C/m. Express your answer in units of g/mol to to three significant figures.

Determine the molar mass of the solute. If 2.35 g of the unknown compound were dissolved...

Determine the molar mass of the solute. If 2.35 g of the unknown compound were dissolved in 30.46 g of PDB ( Kfp for PDB = 7.10 C/m) m=molality = moles solute/kg solvent Molar mass= grams of substance/mole of substance 1. Molar mass of solute is___________ On this molar mass calculation in a freezing point depression experiment determine the effect on molar mass, will it be higher, lower, or not change. 2. The thermometer you were using read temperatures consistently...

PLEASE ANSWER ALL PARTS AND SHOW THE WORK CLEARLY. 2. A solution containing 2.00 g of...

PLEASE ANSWER ALL PARTS AND SHOW THE WORK CLEARLY. 2. A solution containing 2.00 g of an unknown substance in 50.0 g of cyclohexane freezes at 1.05°C. The normal freezing point of cyclohexane is 6.60°C and Kf = 20.4 °C/m. Both substances are molecular. a. What is the value of i? __________ b. Calculate the molality of the solution using ∆T = Kf • m • i. Show all work. c. The units of molality are moles/kg. Moles of what...

A 0.991g sample of an unknown was dissolved in 10.8 g cyclohexane. If the freezing point...

A 0.991g sample of an unknown was dissolved in 10.8 g cyclohexane. If the freezing point depression of the solution was 4.17°C, find the molar mass of the unknown. See Table 1 (in your lab book) for freezing point information concerning cyclohexane.

Quinine is a natural product extracted from the bark of the cinchona tree, which is native...

Quinine is a natural product extracted from the bark of the cinchona tree, which is native to South America. Quinine is used as an antimalarial agent. When 2.94 g 2.94 g of quinine is dissolved in 25.0 g 25.0 g of cyclohexane, the freezing point of the solution is lowered by 7.54 ∘ C. 7.54 ∘C. Look up the freezing point and K f Kf constant for cyclohexane in the Colligative Constants table. Calculate the molar mass of quinine.

Molar Mass by Freezing Point Depression. What is the effect on your calculated molar mass if...

Molar Mass by Freezing Point Depression. What is the effect on your calculated molar mass if the following happened: a. 2.000g of an unknown solute was added to the solvent instead of 1.200g as directed, but 2.000g was used in the calculations. (All 2.000g dissolved in the solvent.) b. The unknown solute reacted with the t-butanol solvent and fragmented into two approximately equal sized molecules. c. Too much solid was put into the solvent- it dissolved when hot, but much...