Understanding Forces in Mixtures & Solution

  • Thread starter Thread starter Qshadow
  • Start date Start date
  • Tags Tags
    Forces Mixtures
AI Thread Summary
Mixtures can be categorized into three types based on homogeneity and particle size: solutions (less than 1 nanometer), colloids (between 1 nanometer and 1 micrometer), and suspensions (greater than 1 micrometer). When two immiscible liquids are mechanically mixed, they do not form a solution due to their inability to mix, nor do they qualify as a colloid since their particles are too small. Instead, they create a heterogeneous mixture characterized by distinct layers, as the liquids remain separate due to differing densities. The intermolecular forces at play in such mixtures are repulsive, leading to the formation of droplets and preventing the liquids from mixing. Ultimately, immiscible liquids attract only to their own molecules, resulting in a stable separation into layers.
Qshadow
Messages
27
Reaction score
0
Hi,
From the wiki article, I understand that Mixtures can be of three types (by homogenity and particle size):
  • Solution (< 1 nanometer)
  • Colloid (between 1 nanometer and 1 micrometer)
  • Suspension (> 1 micrometer)

1. But if we have two immiscible liquids that each have molecule size particles and mix them mechanically, where do they fit in the definitions?
It is definitely not a solution since they are immiscible, but it also cann't be a colloid because the particles (actually molecules) are too small to fit for colloid defnition.

2. What type of intermolecular forces act between the molecules in such immiscible mixture?

Thanks,
Qshadow.
 
Chemistry news on Phys.org
Consider two immiscible liquid mixtures say A and B. By the definition they do not form solution at any proportion. So if we add any amount of A to B or B to A, they do not mix and hence form two separate layer (both have different densities). If we mix them mechanically they won't mix, so we see droplets of A in B (or B in A). If we let them for a while they will separate again in layers. So it is a heterogeneous mixture. The inter-molecular forces will be repulsive in nature.
 
Thanks, this is clear now. So the idea is that immiscible liquids repulse each other and attract only to their own molecules, and thus in steady state they will always form spearate layers or droplets.
Qshadow.
 

Thread 'Humidity of a saturated NaCl solution with anticaking additive'

I want to test a humidity sensor with one or more saturated salt solutions. The table salt that I have on hand contains one of two anticaking agents, calcium silicate or sodium aluminosilicate. Will the presence of either of these additives (or iodine for that matter) significantly affect the equilibrium humidity? I searched and all the how-to-do-it guides did not address this question. One research paper I found reported that at 1.5% w/w calcium silicate increased the deliquescent point by...
View full post »

Similar threads

Different volatilities in ideal solutions?
Replies
1
Views
1K
Freezing point depression in terms of intermolecular forces
Replies
1
Views
6K
I What is the Role of Convective Heat Transfer in Cavitation of Cryogenic Fluids?
Replies
7
Views
2K
I Understanding Covalent Bonds: The Stability of Matter Explained
Replies
8
Views
2K
I How Does Beta Decay Relate to the Role of W Bosons in Weak Nuclear Force?
Replies
4
Views
4K
Fraction of solute in two layers
Replies
4
Views
2K
Is the Quantum/Classical Boundary the most important question in Physics?
3
Replies
135
Views
11K
Is Gravity Truly an Entropic Force in the Universe?
Replies
2
Views
6K
Questions on the kinetic molecular theory of gases
Replies
4
Views
7K
Explaining Brownian Motion & Gas Laws: Homework Solutions in 65 chars or less
Replies
3
Views
2K

Hot Threads

Recent Insights

Back
Top