In the equation for the total vapor pressure of a mixture, what does p represent?

• A. Vapor pressure of the solute
• B. Partial pressure of the solvent
• C. Total vapor pressure
• D. Concentration of the mixture

Answer: (C)

In the context of vapor pressures in mixtures, the equation for total vapor pressure typically refers to the sum of the partial pressures of each component present in the mixture, according to Raoult's Law. In this case, the variable ( p ) represents the total vapor pressure of the mixture.

Total vapor pressure is a critical concept in physical chemistry as it reflects the tendency of the entire mixture to evaporate into the gas phase. It results from the contributions of each individual component in the mixture, with each component's partial pressure being influenced by its mole fraction and its own pure component vapor pressure. Therefore, understanding that ( p ) designates the overall pressure exerted by the vapor above the liquid mixture under equilibrium conditions helps in analyzing how components behave in a mixture.

Thus, identifying the total vapor pressure as ( p ) is fundamental for calculations involving phase equilibria, distillation, and other processes where vapor-liquid interactions are significant. This foundational understanding allows one to apply the concept of partial pressures and their contributions effectively in more complex thermodynamic scenarios.