The freezing point of a camphor solution containing 2.50% by weight of an unknown organic compound...

An aqueous solution containing 35.0 g of an unknown molecular (non-electrolyte) compound in 156.9 g of...

An aqueous solution containing 35.0 g of an unknown molecular (non-electrolyte) compound in 156.9 g of water was found to have a freezing point of -1.2 ∘C. Calculate the molar mass of the unknown compound. Calculate the molar mass of the unknown compound.

An aqueous solution containing 36.2 g of an unknown molecular (non-electrolyte) compound in 146.1 g of...

An aqueous solution containing 36.2 g of an unknown molecular (non-electrolyte) compound in 146.1 g of water was found to have a freezing point of -1.2 ∘C. Calculate the molar mass of the unknown compound.

An aqueous solution containing 36.2 g of an unknown molecular (non-electrolyte) compound in 152.4 g of...

An aqueous solution containing 36.2 g of an unknown molecular (non-electrolyte) compound in 152.4 g of water was found to have a freezing point of -1.4 ∘C. Calculate the molar mass of the unknown compound. Express your answer using two significant figures.

Camphor melts at 179.8oC and has a freezing point depression constant, Kf = 40oC/molal. When 0.186...

Camphor melts at 179.8oC and has a freezing point depression constant, Kf = 40oC/molal. When 0.186 g of an unknown organic solid is dissolved in 22.01 g of liquid camphor, the freezing point of the mixture is found to be 176.7oC. What is the molar mass of the solute?

An aqueous solution containing 34.9 g of an unknown molecular (nonelectrolyte) compound in 130.0 g of...

An aqueous solution containing 34.9 g of an unknown molecular (nonelectrolyte) compound in 130.0 g of water has a freezing point of -1.4 ∘C. Calculate the molar mass of the unknown compound.

An aqueous solution containing 36.3 g of an unknown molecular (non-electrolyte) compound in 144.2 g of...

An aqueous solution containing 36.3 g of an unknown molecular (non-electrolyte) compound in 144.2 g of water was found to have a freezing point of -1.2 ∘C.Calculate the molar mass of the unknown compound.

An aqueous solution containing 17.5 g of an unknown molecule (non electrolyte) compound in 100 g...

An aqueous solution containing 17.5 g of an unknown molecule (non electrolyte) compound in 100 g water has a freezing point of -1.8 degrees Celsius. Calculate the molar mass of the unknown compound

When 200.0 mg of linalool was added to 100.0 g of camphor the freezing point was...

When 200.0 mg of linalool was added to 100.0 g of camphor the freezing point was lowered by 0.51 oC. What is the molar mass of linalool calculated from its colligative property data? What is the new boiling point of the solution? What is the molarity, weight percent, molality, and ppm concentration of linalool? The density of camphor (and the solution) is 0.992 g , the boiling point is 204 oC, the o mL freezing point is 179.75 C. You...

The freezing point depression of a solution of nitrobenzene and a nonionic unknown was used to...

The freezing point depression of a solution of nitrobenzene and a nonionic unknown was used to determine the molar mass of the unknown. Time-temperature data for the cooling of nitrobenzene and for the cooling of a solution containing 50.0 g of nitrobenzene and 5.00 mL of a nonionic liquid unknown. Density of the unknown is 0.714 g mL^-1. And the Kf of nitrobenzene is 6.87 degrees C Kg mol^-1. What is the freezing point of the unknown solution? I know...

An aqueous solution containing 36.5 g  of an unknown molecular (non-electrolyte) compound in 151.5 g of water...

An aqueous solution containing 36.5 g  of an unknown molecular (non-electrolyte) compound in 151.5 g of water was found to have a freezing point of -1.5 ∘C.