Part A Imagine a solution of two liquids in which the molecules interact less fa
ID: 637408 • Letter: P
Question
Part A
Imagine a solution of two liquids in which the molecules interact less favorably than they do in the individual liquids.
Will this solution deviate positively from, deviate negatively from, or ideally follow Raoult's law?
It will be an ideal solution.
Part B
Imagine a solution of two liquids in which the molecules interact more favorably than they do in the individual liquids.
Will this solution deviate positively from, deviate negatively from, or ideally follow Raoult's law?
It will be an ideal solution.
Part C
Imagine a solution of two liquids that are so similar that their interactions together are the same as in the individual liquids.
Will this solution deviate positively from, deviate negatively from, or ideally follow Raoult's law?
It will deviate positively.
It will deviate negatively.
It will be an ideal solution.
It will deviate positively. It will deviate negatively.It will be an ideal solution.
Explanation / Answer
Part A
Imagine a solution of two liquids in which the molecules interact less favorably than they do in the individual liquids.
Will this solution deviate positively from, deviate negatively from, or ideally follow Raoult's law?
Answer- it will deviate negatively.
This solution will deviate negatively from.
Part B
Imagine a solution of two liquids in which the molecules interact more favorably than they do in the individual liquids.
Will this solution deviate positively from, deviate negatively from, or ideally follow Raoult's law?
Answer- It will deviate positively.
this solution deviate positively
Part C
Imagine a solution of two liquids that are so similar that their interactions together are the same as in the individual liquids.
Will this solution deviate positively from, deviate negatively from, or ideally follow Raoult's law?
Answer- It will be an ideal solution.
ideally, follow Raoult's law