The molar volume of sodium at its boiling point, which is 883 degrees Celsius, is approximately 39.1 cm3/mol.
The molar volume of sodium at its boiling point is determined by using the ideal gas law, which states that the volume of a gas is directly proportional to its number of moles, temperature, and pressure. The molar volume can also be calculated by dividing the molar mass of sodium (22.99 g/mol) by its density at its boiling point (0.968 g/cm3).
The molar volume of sodium at its boiling point is important because it provides information about the behavior of sodium as a gas at high temperatures. This information is crucial for various industrial processes and research studies involving sodium.
Yes, the molar volume of sodium at its boiling point will change with pressure. According to the ideal gas law, as pressure increases, the volume of a gas will decrease. Therefore, the molar volume of sodium at its boiling point will decrease as pressure increases.
The molar volume of sodium at its boiling point is relatively small compared to other gases. This is because sodium is a dense element and has a smaller atomic radius compared to other gases, resulting in a smaller molar volume. For example, the molar volume of hydrogen at its boiling point is approximately 22.4 L/mol, which is much larger than that of sodium.