For a binary ideal liquid solution,the total | vedclass

Name: Exam Paper Generator | JEE NEET Paper Generator | Vedclass
Brand: Vedclass
Rating: 5 (35 reviews)

Question

(B) According to Raoult's Law,the total pressure of a binary ideal solution is given by $P_{total} = X_A P_A^o + X_B P_B^o$. Since $X_A + X_B = 1$,we

Vedclass · Accepted Answer

$P_{total} = P_B^o + (P_A^o - P_B^o)X_A$

Vedclass · Answer

(B) According to Raoult's Law,the total pressure of a binary ideal solution is given by $P_{total} = X_A P_A^o + X_B P_B^o$. Since $X_A + X_B = 1$,we can substitute $X_A = 1 - X_B$. $P_{total} = (1 - X_B) P_A^o + X_B P_B^o$ $P_{total} = P_A^o - X_B P_A^o + X_B P_B^o$ $P_{total} = P_A^o + X_B(P_B^o - P_A^o)$. Alternatively,substituting $X_B = 1 - X_A$: $P_{total} = X_A P_A^o + (1 - X_A) P_B^o$ $P_{total} = X_A P_A^o + P_B^o - X_A P_B^o$ $P_{total} = P_B^o + X_A(P_A^o - P_B^o)$. Comparing this with the given options,option $B$ is correct.

For a binary ideal liquid solution,the total pressure of the solution is given as:

Similar Questions

Assuming the formation of an ideal solution,determine the boiling point of a mixture containing $1560 \ g$ benzene (molar mass $= 78 \ g/mol$) and $1125 \ g$ chlorobenzene (molar mass $= 112.5 \ g/mol$) against an external pressure of $1000 \ torr$ using the provided graph. (in $^{\circ}C$)

$1 \ mol$ of liquid $A$ and $2 \ mol$ of liquid $B$ make a solution having an observed vapour pressure of $42 \ torr$. The vapour pressures of pure $A$ and pure $B$ are $45 \ torr$ and $36 \ torr$ respectively. The described solution:

$A$ solution that obeys Raoult's law is

When ethanol is mixed with acetone,what happens to the heat?

$A$ mixture of toluene and benzene forms a nearly ideal solution. Assume $p_{B}^{\circ}$ and $p_{T}^{\circ}$ to be the vapour pressures of pure benzene and toluene,respectively. The slope of the line obtained by plotting the total vapour pressure versus the mole fraction of benzene is $....$

Vedclass Test Series

Exam Paper Generator

Online Exam Module