Consider an ideal liquid–vapor mixture at equilibrium having liquid phase mole fraction $(x_i)$ and gas phase mole fraction $(y_i)$ of component $i$. If at a given temperature, $P_{v_i}$ is the vapor pressure of pure component $i$ and $P$ is the total pressure, then the equilibrium ratio $(k_i)$ is
Show Hint
- $k_i=\dfrac{x_i}{y_i}=\dfrac{P_{v_i}}{P}$
- $k_i=\dfrac{x_i}{y_i}=\dfrac{P}{P_{v_i}}$
- $k_i=\dfrac{y_i}{x_i}=\dfrac{P_{v_i}}{P}$
- $k_i=\dfrac{y_i}{x_i}=\dfrac{P}{P_{v_i}}$
The Correct Option is C
Solution and Explanation
For component $i$, the equilibrium (saturation) partial pressure above the liquid is \[ p_i^{\star} = x_i \, P_{v_i}. \] Step 2: Use Dalton’s law for the gas phase.
At total pressure $P$, the actual partial pressure in the vapor is \[ p_i = y_i \, P. \] Step 3: Equate partial pressures at phase equilibrium.
At equilibrium, \[ p_i = p_i^{\star} \;\Rightarrow\; y_i P = x_i P_{v_i} \;\Rightarrow\; \dfrac{y_i}{x_i} = \dfrac{P_{v_i}}{P}. \] Step 4: Define the equilibrium ratio.
By definition, $k_i \equiv \dfrac{y_i}{x_i} \;\Rightarrow\; k_i = \dfrac{P_{v_i}}{P}$, which matches option (C).
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Identify the option that has the most appropriate sequence such that a coherent paragraph is formed:
Statement:
P. At once, without thinking much, people rushed towards the city in hordes with the sole aim of grabbing as much gold as they could.
Q. However, little did they realize about the impending hardships they would have to face on their way to the city: miles of mud, unfriendly forests, hungry beasts, and inimical local lords—all of which would reduce their chances of getting gold to almost zero.
R. All of them thought that easily they could lay their hands on gold and become wealthy overnight.
S. About a hundred years ago, the news that gold had been discovered in Kolar spread like wildfire and the whole State was in raptures.
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