1. Calculate molality (m), in mol/kg, using the formula Dt = Kf  ´ m. Calculate moles of...

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...

The freezing point depression constant tells how the temperature changes for a 1 molal concentration of...

The freezing point depression constant tells how the temperature changes for a 1 molal concentration of solute. If camphor is dissolved in cyclohexane so that the concentration is 1.5 molal, what is the freezing point of the solution? (See Table in lab procedure for Kf values.) What are the five major steps in this experiment? a. b. c. d. e. An important hazard of cyclohexane is __________________________________. How will you know if the solute is completely dissolved? Howdoyoucleanupthetesttubeattheendoftheexperiment? 4. 5....

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.

a. A sample of 0.0500 moles of a molecular solute was dissolved in 250. grams of...

a. A sample of 0.0500 moles of a molecular solute was dissolved in 250. grams of the solvent. The freezing point decreased by 2.11°C. Calculate the freezing point depression constant (Kf) for the solvent. b.When 0.610 grams of an unknown molecular solute is dissolved in 100. grams of the solvent from above, the freezing point decreases by 0.88°C. Calculate the molar mass of the unknown solute. You'll need the rounded Kf from the previo

What is the mole fraction, X, of solute and the molality, m (or b), for an...

What is the mole fraction, X, of solute and the molality, m (or b), for an aqueous solution that is 19.0% NaOH by mass? hint: Molality, m (or b), is the number of moles of solute per kilogram of solvent. Mole fraction, X, is the number of moles of a component divided by the total number of moles. Choose an arbitrary mass of solution, such as 100 g, and determine the masses of NaOH and H2O. Then convert those values...

5. Determine the molal freezing point depression constant (Kf) (in °C⋅kg/mol) of water by using the...

5. Determine the molal freezing point depression constant (Kf) (in °C⋅kg/mol) of water by using the data of three NaCl solutions . Use Equation 3 in the “Background and Procedure” file, the molality values of all solutes from Question s 1 – 3 and the freezing point depression ( ∆T) from Question 4. In your calculation, rewrite the symbol“m ” (the molality) as “mol/kg” so that the molal freezing point depression constant will have the correct unit. Make sure to...

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): _________

Determine the molality of a solution of ethanol dissolved in methanol for which the mole fraction...

Determine the molality of a solution of ethanol dissolved in methanol for which the mole fraction of ethanol is 0.397. Give your answer to 2 decimal places Calculate the boiling point (in degrees C) of a solution made by dissolving 6.81 g of sucrose (C12H22O11) in 99.7 g of acetone. The Kbp of the solvent is 1.71 K/m and the normal boiling point is 56.2 degrees C. Give your answer to 2 decimal places When 11.8 g of an unknown,...

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...

must show all work. Observe sig fig rules and include units. 1) In a lab three...

must show all work. Observe sig fig rules and include units. 1) In a lab three determinations were made for the freezing point of an unknown liquid. The values obtained were: 25.1°C, 25.9°C and 25.4°C. Calculate the average and Standard Deviation. 2) Compound X was dissolved in water. The freezing point of this solution was determined to be -0.072°C. a) Calculate the ΔTf ? (Freezing Point of water is 0.00°C) b) Calculate the molality of the solution? (Kf for water...