If 1 kg of solvent (water) and 10 g of a solute (unknown) were mixed and the boiling point determined to be 101.8 degree...
If 1 kg of solvent (water) and 10 g of a solute (unknown) were mixed and the boiling point determined to be 101.8 degrees Celsius, calculate the molecular weight of the solute. Assume the water boiled at 100 degrees Celsius before solute was added.
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If 1 kg of solvent (water) and 10 g of a solute (unknown) were mixed and the boiling point determined to be 101.8 degree...
The freezing point of 53.37 g of a pure solvent is measured to be 49.20 ºC....
The freezing point of 53.37 g of a pure solvent is measured to be 49.20 ºC. When 2.74 g of an unknown solute (assume the van 't Hoff factor = 1.0000) is added to the solvent the freezing point is measured to be 47.05 ºC. Answer the following questions ( the freezing point depression constant of the pure solvent is 7.83 ºC·kg solvent/mol solute). What is the molality of the solution? m How many moles of solute are present? mol...
The freezing point of 53.48 g of a pure solvent is measured to be 41.91 ºC....
The freezing point of 53.48 g of a pure solvent is measured to be 41.91 ºC. When 2.94 g of an unknown solute (assume the van 't Hoff factor = 1.0000) is added to the solvent the freezing point is measured to be 39.86 ºC. Answer the following questions ( the freezing point depression constant of the pure solvent is 7.33 ºC·kg solvent/mol solute). -What is the molality of the solution?___ m -How many moles of solute are present? ___mol...
A Review Constants Periodic Table The changes in boiling point (AT) or freezing point (AT) in...
A Review Constants Periodic Table The changes in boiling point (AT) or freezing point (AT) in degrees Celsius from a pure solvent can be determined from the equations given here, respectively: AT) = m x K = moles of solute XK K. kilograms of solvent Since pure water boils at 100.00 °C, and since the addition of solute increases boiling point, the boiling point of an aqueous solution, Th, will be T - (100.00+AT) 'C Since pure water freezes at...
Review Constants Periodic Table The changes in boiling point (AT) or freezing point (AT) in degrees...
Review Constants Periodic Table The changes in boiling point (AT) or freezing point (AT) in degrees Celsius from a pure solvent can be determined from the equations given here, respectively: Value Units moles of solute AT = mx Kb = 7 Submit kilograms of solvent XRb moles of solutex Kf Part B AT: = mx Kf = kilograms of solvent where m is the molality of the solution, and K and K the boiling-point-elevation and freezing-point-depression constants for the solvent,...
A solution contains 0.180 g of an unknown nonelectrolyte solute in 50.0 g of water. The...
A solution contains 0.180 g of an unknown nonelectrolyte solute in 50.0 g of water. The solution freezes at –0.040 0C (notice the negative sign). A) What is the molar mass of the unknown solute? B) What is the boiling temperature of the solution? Kf(water) = 1.86 K kg mol-1 ; Kb(water) = 0.51 K kg mol-1 . Assume that the solute only exists as a monomer in aqueous solution.
When 9.31 g of an unknown non-electrolyte is dissolved in 50.0 g of benzene, the boiling...
When 9.31 g of an unknown non-electrolyte is dissolved in 50.0 g of benzene, the boiling point increased by 3.16 degrees C. If the Kbp of the solvent is 2.53 K/m, calculate the molar mass of the unknown solute. The answer is 149 ± 2% looking for explanation how to work this problem
What mass (kg) of the solvent water should be added to 429 g of the solute...
What mass (kg) of the solvent water should be added to 429 g of the solute tetrahydrofuran to generate a solution that contains 8.70 % by mass C4H8O. Molar Mass (g/mol) - C4H8O 72.12 - H2O 18.015 Density (g/mL) - C4H8O 0.8892 - H2O 0.9982 Name/Formula - tetrahydrofuran / C4H8O - water / H2O
The freezing point depression of a solution made by the addition of a nonionic unknown solute...
The freezing point depression of a solution made by the addition of a nonionic unknown solute to benzophenone was used to determine the molar mass of the unknown. Data was collected for a solution containing 500. g of benzophenone with 5.0 ml of the unknown solute added. The density of the unknown solute was 6.18 g/ml. The K_f of benzophenone is 9.8 degree C M^-1. The freezing point of the benzophenone was determined to be 7.19 degree C. The freezing...
1a: 19.930 g of a non-volatile solute is dissolved in 395.0 g of water. The solute...
1a: 19.930 g of a non-volatile solute is dissolved in 395.0 g of water. The solute does not react with water nor dissociate in solution. Assume that the resulting solution displays ideal Raoult's law behaviour. At 90°C the vapour pressure of the solution is 521.11 torr. The vapour pressure of pure water at 90°C is 525.80 torr. Calculate the molar mass of the solute (g/mol). 1b: Now suppose, instead, that 19.930 g of a volatile solute is dissolved in 395.0...
What was the initial boiling point if 44.20 g NaCl was added to 35.00 kg of...
What was the initial boiling point if 44.20 g NaCl was added to 35.00 kg of an unknown solvent, making the final boiling point of the solution 130.00℃? (use K = 2.00 ℃ᆞKg/mol) 124.95℃ 135.05 ℃ 46.80℃ 129.5℃
A Review Constants Periodic Table The changes in boiling point (AT) or freezing point (AT) in degrees Celsius from a pure solvent can be determined from the equations given here, respectively: AT) = m x K = moles of solute XK K. kilograms of solvent Since pure water boils at 100.00 °C, and since the addition of solute increases boiling point, the boiling point of an aqueous solution, Th, will be T - (100.00+AT) 'C Since pure water freezes at...
Review Constants Periodic Table The changes in boiling point (AT) or freezing point (AT) in degrees Celsius from a pure solvent can be determined from the equations given here, respectively: Value Units moles of solute AT = mx Kb = 7 Submit kilograms of solvent XRb moles of solutex Kf Part B AT: = mx Kf = kilograms of solvent where m is the molality of the solution, and K and K the boiling-point-elevation and freezing-point-depression constants for the solvent,...
The freezing point depression of a solution made by the addition of a nonionic unknown solute to benzophenone was used to determine the molar mass of the unknown. Data was collected for a solution containing 500. g of benzophenone with 5.0 ml of the unknown solute added. The density of the unknown solute was 6.18 g/ml. The K_f of benzophenone is 9.8 degree C M^-1. The freezing point of the benzophenone was determined to be 7.19 degree C. The freezing...
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