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Which of the following pieces of information would you need to determine the molar mass of...
Freezing point depression can be used to experimentally determine the van't Hoff factor of a solute...
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...
The molar mass of unknown molecular compound is determined using freezing point depression. The substance is...
The molar mass of unknown molecular compound is determined using freezing point depression. The substance is dissolved in benzene (C6H), an organic solvent. Use the data below to determine the molar mass of the substance. 8.65 g Mass of unknown compound Freezing point of solution Volume of benzene -10.21°C 35.0 mL 5.53°C Freezing point of benzene Density of benzene Kf for benzene 0.8765 g/mL 5.12°C/m Molar mass = g/mol
A Molar Mass from freezing-point Depression. 1. Provide definitions for the following terms: a. Solution-cv b....
A Molar Mass from freezing-point Depression. 1. Provide definitions for the following terms: a. Solution-cv b. Solute c. Solvent d. Colligative property e. Freezing-point depression a. What is the objective of this experiment? b. How will that objective be achieved? 3. A 0.2436-g sample of an unknown substances was dissolved in 20.0 mL of cyclohexane. The density of cyclohexane is 0.779 g/mL. The freezing-point depression was 2.5*C. Calculate the molar mass of the unknown substance. 4. What safety rules must...
21. What mass of Na2SO4 must be dissolved in 100.0 grams of water to lower the...
21. What mass of Na2SO4 must be dissolved in 100.0 grams of water to lower the freezing point by 2.50 °C? The freezing point depression constant, Kfp, of water is -1.86 °C/m. Assume the van't Hoff factor for Na2SO4 is 2.95.
Molar Mass by Freezing Point Depression con Pre-Laboratory Assignment I. The following data were obtained in...
Molar Mass by Freezing Point Depression con Pre-Laboratory Assignment I. The following data were obtained in an experiment designed to find the molar mass of a solute by freezing point depressio Solvent: para-dichlorobenzene Freezing point ofpure solvent: 53.02"C Mass of unknown substance: 2.04g Freezing point depression constant: 7.1°C/m Mass of para-dichlorobenzene: 24.80 g Freezing point of solution: 50.78 °C a. Determine the freezing point depression, Δ b. Using Equation 4, calculate the molar mass of the unknown substance. .2.au"-7. ↓...
In this exercise, you will determine the molar mass of a known substance using its freezing...
In this exercise, you will determine the molar mass of a known substance using its freezing point depression in a solution. Table 1 contains the freezing point depression data from a laboratory experiment. Use this data to determine the molar mass of each compound, calculated using stoichiometry Table 1: Freezing Point Temperatures Masssolvent Solution Amount Solute Added Freezing Point (°C) 0.025 kg H2O Н2О n/a 0.025 kg H2O Glycerol (CэHaОз) 5 mL -4.2 0.025 kg H20 -5.1 NaCl 2 g...
Post-Lab Material Experiment 19 Data and Calculations: Molar Mass Determination by Depression of the Freezing Point...
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....
Need help solving the calculationss. please show work on a seperae piece of paper and show...
Need help solving the calculationss. please show work on a
seperae piece of paper and show all work.
Background information.
Experiment 1: Measure the Freezing Point of Pure Water 10 1. Volume of water (mL): 10 2. Mass of water (g): 3. Freezing Temperature (°C): 0 Experiment 2: Measure the Freezing Point of a Solution of an Unknown Substance 1. Mass of FP sample 1 (g): 2.00 si 2. Mass of sample and water (g): 12.000 3. Freezing Temperature (°C):...
I asked this question before but I didn't really understand what was the answers for EACH...
I asked this question before but I didn't really understand what was the answers for EACH of the blanks listed in my question, so I am asking it again. A 1.24 M solution of KI has a density of 1.15 g/cm3. Assume 1.00 liter of 1.24 M KI solution. The mass of 1.00 L of solution is ______grams. The number of grams of KI in the 1 liter is _____ grams. The number of grams of water in the 1...
Pure benzene, C6H6, has a molar mass of 78.114 g mol-1, a density of 0.8765 g...
Pure benzene, C6H6, has a molar mass of 78.114 g mol-1, a density of 0.8765 g mL-1, a freezing point of 5.45°C, and a boiling point of 80.2°C. Its freezing point depression and boiling point elevation constants are: Kf = 5.07°C m-1; Kb = 2.53oC m-1. A solution was made by taking 33.88 g of an unknown nonelectrolyte and dissolving it in 175.0 g of benzene. The measured freezing point of the solution was 1.65oC. Calculate the molar mass of...
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...
The molar mass of unknown molecular compound is determined using freezing point depression. The substance is dissolved in benzene (C6H), an organic solvent. Use the data below to determine the molar mass of the substance. 8.65 g Mass of unknown compound Freezing point of solution Volume of benzene -10.21°C 35.0 mL 5.53°C Freezing point of benzene Density of benzene Kf for benzene 0.8765 g/mL 5.12°C/m Molar mass = g/mol
A Molar Mass from freezing-point Depression. 1. Provide definitions for the following terms: a. Solution-cv b. Solute c. Solvent d. Colligative property e. Freezing-point depression a. What is the objective of this experiment? b. How will that objective be achieved? 3. A 0.2436-g sample of an unknown substances was dissolved in 20.0 mL of cyclohexane. The density of cyclohexane is 0.779 g/mL. The freezing-point depression was 2.5*C. Calculate the molar mass of the unknown substance. 4. What safety rules must...
21. What mass of Na2SO4 must be dissolved in 100.0 grams of water to lower the freezing point by 2.50 °C? The freezing point depression constant, Kfp, of water is -1.86 °C/m. Assume the van't Hoff factor for Na2SO4 is 2.95.
Molar Mass by Freezing Point Depression con Pre-Laboratory Assignment I. The following data were obtained in an experiment designed to find the molar mass of a solute by freezing point depressio Solvent: para-dichlorobenzene Freezing point ofpure solvent: 53.02"C Mass of unknown substance: 2.04g Freezing point depression constant: 7.1°C/m Mass of para-dichlorobenzene: 24.80 g Freezing point of solution: 50.78 °C a. Determine the freezing point depression, Δ b. Using Equation 4, calculate the molar mass of the unknown substance. .2.au"-7. ↓...
In this exercise, you will determine the molar mass of a known substance using its freezing point depression in a solution. Table 1 contains the freezing point depression data from a laboratory experiment. Use this data to determine the molar mass of each compound, calculated using stoichiometry Table 1: Freezing Point Temperatures Masssolvent Solution Amount Solute Added Freezing Point (°C) 0.025 kg H2O Н2О n/a 0.025 kg H2O Glycerol (CэHaОз) 5 mL -4.2 0.025 kg H20 -5.1 NaCl 2 g...
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....
Need help solving the calculationss. please show work on a
seperae piece of paper and show all work.
Background information.
Experiment 1: Measure the Freezing Point of Pure Water 10 1. Volume of water (mL): 10 2. Mass of water (g): 3. Freezing Temperature (°C): 0 Experiment 2: Measure the Freezing Point of a Solution of an Unknown Substance 1. Mass of FP sample 1 (g): 2.00 si 2. Mass of sample and water (g): 12.000 3. Freezing Temperature (°C):...
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