The density of benzene changes from 0.879 g/cm3 to 0.891 g/cm3 when it freezes at 5.5°C....

When a certain liquid (MM = 54.6 g mol-1) freezes at 9.62°C and 1 atm, its...

When a certain liquid (MM = 54.6 g mol-1) freezes at 9.62°C and 1 atm, its density changes from 0.781 g cm-3 to 0.803 g cm-3. Its enthalpy of fusion is 11.16 kJ mol-1. Find the freezing point of the liquid in °C at 79 MPa.

The enthalpy of vapourization of benzene(l) to benzene(g) is +33.0 kJ/mol. a)From the BE values in...

The enthalpy of vapourization of benzene(l) to benzene(g) is +33.0 kJ/mol. a)From the BE values in Table 3.1, and again the enthalpy of atomization of C(s), +717 kJ/mol, estimate the enthalpy of formation of benzene(l). (Hint: now the formation of benzene(g) has to be followed by the reaction benzene(g)®benzene(l), the opposite of vapourization).

The freezing point of benzene is 5.5 °C. What is the molar mass of a nonionizing...

The freezing point of benzene is 5.5 °C. What is the molar mass of a nonionizing solute if 1.49 grams of the solute added to 23.24 g of benzene lowers the freezing point to 3.4. The Kf of benzene is -5.12 °C/m. Record your answer as a whole number.

) Pure benzene, C6H6, has a density of 0.8765 g/ml, a freezing point of 5.45oC and...

) Pure benzene, C6H6, has a density of 0.8765 g/ml, a freezing point of 5.45oC and a boiling point of 80.2oC. Its freezing point depression constant, Kf, is 5.07oC/m. A solution was made by taking 24.20 grams of an unknown non-electrolyte and dissolving it in 125.0 grams of benzene. The measured freezing point of the solution was -1.65oC. Calculate the molecular weight of the unknown substance. 258 g/mole 145 g/mole 138 g/mole 272 g/mole 595 g/mol

The addition of 100 g of a non-volatile unknown compound to 750 g CCl4 lowered the...

The addition of 100 g of a non-volatile unknown compound to 750 g CCl4 lowered the freezing point of the solvent by 10.5 K at 1 atm. The normal freezing point of pure CCl4 is 250 K and the molar enthalpy of fusion is 2.7 kJ/mol. Calculate the molar mass of the compound.

Entropy change when supercooled water freezes It is possible, with care, to cool water below its...

Entropy change when supercooled water freezes It is possible, with care, to cool water below its freezing point without causing the water to freeze. This is referred to as supercooling. Suppose that you did this, and had 115 g of supercooled water at -6.35 oC (6.35 oC below the freezing point) in a perfectly insulated container. 1. Now suppose that the supercooled water suddenly and spontaneously changes to a mixture of ice and water (that is, it partially freezes). Assume...

When 10.83 g of glucose was dissolved in 109.6 g of benzene, the freezing point was...

When 10.83 g of glucose was dissolved in 109.6 g of benzene, the freezing point was 275.8 K. What is the formula mass of this compound? The freezing point depression constant for benzene is 5.12 (°C*kg)/mol. The melting point and boiling points are 5.50°C and 80.10°C, respectively. Aren't only I able to obtain formula mass of glucose?

Benzene is heated to boiling under a pressure of 1.0 atm with a 12 V source...

Benzene is heated to boiling under a pressure of 1.0 atm with a 12 V source operating an electric current of 0.50 A. For how long would a current need to be supplied in order to vaporize 10 g of benzene? The molar enthalpy of benzene at its boiling point (353.25 K) is 30.8 kJ/mol

For cobalt, Co, the heat of fusion at its normal melting point of 1495 °C is...

For cobalt, Co, the heat of fusion at its normal melting point of 1495 °C is 15.5 kJ/mol. The entropy change when 1.70 moles of liquid Co freezes at  1495 °C, 1 atm is ___ J/K.

The dissolution of 5.25 g of a substance in 565 g of benzene at 298 K...

The dissolution of 5.25 g of a substance in 565 g of benzene at 298 K raises the boiling point by 0.625°C. Note that Kf = 5.12 K kg/mol, Kb = 2.53 K kg/mol, and the density of benzene is 876.6 kg/m3 . Calculate the freezing point depression, the ratio of the vapor pressure above the solution to that of the pure solvent, the osmotic pressure, and the molar mass of the solute. * Pbenzene =103 Torr at 298 K.