Would the measured boiling point of your unknown liquid have been to high or too low...

A boiling point for an unknown liquid was measured at 92.5 C. The atmospheric pressure was...

A boiling point for an unknown liquid was measured at 92.5 C. The atmospheric pressure was recorded at 740 torr. When correcting the bp for pressure, the new value will be closest to which value?

For each of the following determine whether the calculated molarity would be too low, too high,...

For each of the following determine whether the calculated molarity would be too low, too high, or unaffected and explain why? a. You added 1.0 zinc (instead of 0.3-0.4g) to your unknown. b. You added 50 ml DI (instead of 25mL) to your 10.00 mL unknown sample and then added the Zn c. the cooper was not completely dry before weighing

1) We have assumed that the unknown does not dissociate into more than one particle when...

1) We have assumed that the unknown does not dissociate into more than one particle when dissolved. If this was an incorrect assumption and the solid did dissociate slightly. Then how would the calculated molar mass of solute from our experiment differ from the actual molar mass? The calculated would be (too high, too low or unaffected) compared to the actual? Explain briefly. 2)If you measured the experimental freezing point of 30g cyclohexane with 0.012mols of Toluene (MWT= 92.15) and...

1) We have assumed that the unknown does not dissociate into more than one particle when...

1) We have assumed that the unknown does not dissociate into more than one particle when dissolved. If this was an incorrect assumption and the solid did dissociate slightly. Then how would the calculated molar mass of solute from our experiment differ from the actual molar mass? The calculated would be (too high, too low or unaffected) compared to the actual? Explain briefly. 2)If you measured the experimental freezing point of 30g cyclohexane with 0.012mols of Toluene (MWT= 92.15) and...

1) We have assumed that the unknown does not dissociate into more than one particle when...

1) We have assumed that the unknown does not dissociate into more than one particle when dissolved. If this was an incorrect assumption and the solid did dissociate slightly. Then how would the calculated molar mass of solute from our experiment differ from the actual molar mass? The calculated would be (too high, too low or unaffected) compared to the actual? Explain briefly. 2)If you measured the experimental freezing point of 30g cyclohexane with 0.012mols of Toluene (MWT= 92.15) and...

1) We have assumed that the unknown does not dissociate into more than one particle when...

1) We have assumed that the unknown does not dissociate into more than one particle when dissolved. If this was an incorrect assumption and the solid did dissociate slightly. Then how would the calculated molar mass of solute from our experiment differ from the actual molar mass? The calculated would be (too high, too low or unaffected) compared to the actual? Explain briefly. 2)If you measured the experimental freezing point of 30g cyclohexane with 0.012mols of Toluene (MWT= 92.15) and...

How would the following errors affect the calculated values of the molar mass (high, low, or...

How would the following errors affect the calculated values of the molar mass (high, low, or no effect), if you were not aware that they had occured? Explain your answers. a. A small amount of unknown adheres to the inside of test tube and did not get dissolved in the cyclohexane. b. Some solvent is lost by volitilization. c. The thermometer used in this experiment was miscalibrated to read 0.5 C lower than the actual temperature over its entire scale.

Explain how each of the following errors Part B would affect the calculation of the molar...

Explain how each of the following errors Part B would affect the calculation of the molar mass of the unknown. (which would have been Cyclohexane ,C6H12, molar mass=84.2, boiling point=80.7) (4): 0.3703g (6): Temp of vapor in flask 102C 375.15K (7): Barometric Pressure- 30.35in * 2.54cm/1in * 10mm/1cm= 770.89 --> 1.01 atm (8): Volume of Erlenmeyer flask- 147 mL 0.147 L M= (step4)(0.0821L atm/mole)(6) / (step 7)(step 8) = 76.8 g/mol <---that should have been 84.2 if we would have...

1.A) A student used the method MM=g*R*T/P*V for determine the molar masss of an unknown volatile...

1.A) A student used the method MM=g*R*T/P*V for determine the molar masss of an unknown volatile liquid. The barometric pressure in the lab was 746 mmHg, and the temperature of the boiling water was 98.5 degress C. The mass of the flask was 68.471 g, and the weight of the flask plus the condensed vapor was 687.959 g. The volume of the flask was 135.7 mL. What is the molar mass of the compound? B) What would happen to the...

How would your calculations for the mass of Mg metal present in the sample have been...

How would your calculations for the mass of Mg metal present in the sample have been affected (if at all) by the fallowing observations? Clearly explain your reasoning fo reach answer. 1. Your instructor had inverted two numbers when reading the pressure and reported wha the barometric pressure was 754 torr when in fact the correct room pressure was 745 torr. 2.Your partner had tightly held the gas-filled porition of the buret in his hand while you were trying to...