NCERT Solution for Class Tenth Science Chapter 4
Carbon and its Compounds
CBSE NCERT Book Session-2022-2023
Intext Questions
Page No-21
Questions No-4
Why does micelle formation take place when soap is added to water? Will a micelle be formed in other solvents such as ethanol also?
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A soap is a sodium or potassium salt of long chain carboxylic acids. It has one polar end and one non-polar end. The polar end is hydrophilic in nature which is attracted towards water. The non-polar end is hydrophobic but lipophilic, i.e., it is attracted towards hydrocarbons. When soap is added to water, soap molecules arrange themselves in a cluster, the non-polar portion out of water such that the non-polar ends are in the interior of the cluster attached with dirt and the polar ends are on the surface of the cluster. Since the dirt present on clothes is oily in nature and insoluble in water, the hydrophobic ends of the clusters attach themselves to the dirt. This cluster of soap molecule formation in which the dirt is entrapped is called micelles. Micelle formation does not occur in alcohol because the alkyl chain of soap becomes soluble in alcohol.
Micelle formation occurs when soap is added to water due to the amphiphilic nature of soap molecules and the unique properties of water. Soaps are typically sodium or potassium salts of long-chain fatty acids, and they consist of a hydrophilic (water-attracting) “head” and a hydrophobic (water-repelling) “tail.” When soap is added to water, several factors drive micelle formation:
1. Hydrophilic Head: The hydrophilic head of the soap molecule is attracted to water molecules due to the electrostatic interactions (dipole-dipole and ion-dipole interactions) between the polar head and water molecules. This interaction promotes the dispersion of soap molecules in water.
2. Hydrophobic Tail: The hydrophobic tail of the soap molecule, on the other hand, is repelled by water because it is composed of nonpolar hydrocarbon chains. These tails prefer to interact with each other rather than with water.
When soap is added to water, soap molecules aggregate to form micelles to minimize the exposure of the hydrophobic tails to water. In a micelle, the hydrophobic tails cluster together in the center of the structure, shielded from the surrounding water, while the hydrophilic heads are oriented outward and interact with the water. This arrangement allows soap molecules to be dispersed in the water and, at the same time, trap hydrophobic substances (like oils and grease) in the interior of the micelle, making them soluble in water.
Regarding the formation of micelles in other solvents, it is essential to consider the solvent’s polarity and its ability to interact with the hydrophilic and hydrophobic portions of the soap molecules. While soap readily forms micelles in water due to its polar nature, it may not form micelles in nonpolar solvents like ethanol, which lacks the ability to interact favorably with the hydrophilic heads of soap.
In nonpolar solvents like ethanol, the hydrophobic tails of soap molecules would not be as effectively shielded from the solvent, and the formation of micelles would be less favorable. Instead, the soap molecules might remain dispersed in the solvent without the organized micellar structure seen in water.
In summary, micelle formation in soap solutions primarily occurs in polar solvents like water, where the hydrophilic heads of soap molecules can interact with water molecules, and the hydrophobic tails can cluster together within the micelles. In nonpolar solvents like ethanol, micelle formation is less likely due to the mismatch in polarity and intermolecular interactions.