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Liquid-Vapor Systems - Raoult’s Law | Chemistry Optional Notes for UPSC PDF Download

Introduction

  • Raoult’s law can be used to predict the total vapor pressure above a mixture of two volatile liquids. As it turns out, the composition of the vapor will be different than that of the two liquids, with the more volatile compound having a larger mole fraction in the vapor phase than in the liquid phase. This is summarized in the following theoretical diagram for an ideal mixture of two compounds, one having a pure vapor pressure of poB = 450Torr and the other having a pure vapor pressure of poB = 350Torr. In Figure 8.7.1, the liquid phase is represented at the top of the graph where the pressure is higher.

Liquid-Vapor Systems - Raoult’s Law | Chemistry Optional Notes for UPSC

Figure  8.7.1: The liquid phase is represented at the top of the graph where the pressure is higher

  • Oftentimes, it is desirable to depict the phase diagram at a single pressure so that temperature and composition are the variables included in the graphical representation. In such a diagram, the vapor, which exists at higher temperatures) is indicated at the top of the diagram, while the liquid is at the bottom. A typical temperature vs. composition diagram is depicted in Figure  8.7.2 for an ideal mixture of two volatile liquids.

Liquid-Vapor Systems - Raoult’s Law | Chemistry Optional Notes for UPSC

  • In this diagram,  ToA and  ToB  represent the boiling points of pure compounds  A  and  B. If a system having the composition indicated by  χcB has its temperature increased to that indicated by point c, The system will consist of two phases, a liquid phase, with a composition indicated by  χdB and a vapor phase indicated with a composition indicated by  χbB . The relative amounts of material in each phase can be described by the lever rule, as described previously.
  • Further, if the vapor with composition  χb is condensed (the temperature is lowered to that indicated by point b') and revaporized, the new vapor will have the composition consistent with  χaB . This demonstrates how the more volatile liquid (the one with the lower boiling temperature, which is A in the case of the above diagram) can be purified from the mixture by collecting and re-evaporating fractions of the vapor. If the liquid was the desired product, one would collect fractions of the residual liquid to achieve the desired result. This process is known as distillation.

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The document Liquid-Vapor Systems - Raoult’s Law | Chemistry Optional Notes for UPSC is a part of the UPSC Course Chemistry Optional Notes for UPSC.
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FAQs on Liquid-Vapor Systems - Raoult’s Law - Chemistry Optional Notes for UPSC

1. What is Raoult's Law?
Raoult's Law is a principle in thermodynamics that describes the behavior of ideal liquid-vapor systems. It states that the partial pressure of each component in a mixture of ideal liquids is proportional to its mole fraction in the liquid phase.
2. How does Raoult's Law apply to liquid-vapor systems?
Raoult's Law applies to liquid-vapor systems by providing a mathematical relationship between the vapor pressure of a component and its concentration in the liquid phase. It states that the vapor pressure of a component is equal to the product of its mole fraction in the liquid phase and its pure component vapor pressure.
3. What are ideal liquid-vapor systems?
Ideal liquid-vapor systems refer to mixtures of liquids that follow Raoult's Law. In these systems, the interactions between the molecules of different components are assumed to be negligible, and the vapor pressure of each component depends only on its mole fraction in the liquid phase.
4. How can Raoult's Law be used to calculate vapor pressure?
Raoult's Law can be used to calculate the vapor pressure of a component in a liquid mixture by multiplying its mole fraction in the liquid phase by its pure component vapor pressure. This calculation assumes ideal behavior and that the interactions between the molecules of different components are negligible.
5. What are the limitations of Raoult's Law?
Raoult's Law has several limitations. It assumes ideal behavior and neglects the interactions between the molecules of different components. It also assumes that the vapor pressure of each component does not depend on the presence of other components. In reality, deviations from Raoult's Law can occur due to non-ideal behavior, azeotropy, or complex molecular interactions.
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