Molar Volumes of Solid and Liquid Lead at Normal Melting Temperature

What are the molar volumes of solid and liquid lead at the normal melting temperature?

Calculate the pressure using the given data.

Answer:

The molar volumes of solid and liquid lead at the normal melting temperature are, respectively, 18.92 cm3 and 19.47 cm3.

To calculate the pressure, we use the formula:

ΔP = (ΔH / ΔV) ln(T2 / T1)

where,

ΔH = change in enthalpy from solid to liquid = 4810 J/mol

ΔV = change in volume from solid to liquid = 0.55 cm3/mol

T2 = 620 K, T1 = 600 K

So,

ΔP = (4810 / 0.55) ln(620 / 600)

ΔP = 286.76 J/cm3

Converting to atm:

ΔP = 2830 atm

Explanation:

The molar volumes of solid and liquid lead at the normal melting temperature provide information on the volume occupied by a mole of lead in its solid and liquid states. The molar volume of solid lead is 18.92 cm3, while the molar volume of liquid lead is slightly larger at 19.47 cm3.

To calculate the pressure, the formula involving the change in enthalpy (ΔH), change in volume (ΔV), and temperature (T) differences between the solid and liquid states of lead is utilized. By substituting the values into the formula, the pressure change is determined to be 2830 atm.

← Why do marshmallows expand when heated Chemistry calculating molar mass of sodium acetate →