M7 Soaps Flashcards
How is soap made
through the hydrolysis of a fat under basic or acidic conditions(Strong acid or base) (saponification)
what is the chemical reaction of saponification
Heat
Fat + NaOH —> Glycerol + 3 sodium fatty acid carboxylate(soap)
How can you identify a fat
the triglyceride (carbon chain) connecting three carbon chains
what are the major components of a soap molecule (2)
- Polar/Ionic Hydrophilic head (COO-)
- a non-polar Hydrophobic tail (carbon chain)
why can’t fats and oils interact with water
they are non-polar and only emit dispersion forces meaning they do not have the strength to overcome the intermolecular h-bonds between water molecules therefore making it unable to interact with water
what happens when you put soap in water
when dissolved in water, soap molecules act as surfactants arranging themselves in the form of roughly spherical aggregates called a micelles, which have a polar outside with a hydrophobic pocket on the inside
How do Micelles help with cleaning oils and fats (2)
- Micelles hydrophobic pocket, are able interact and solubilize other hydrophobic molecules, such as oils and fats as they are both non-polar
- As the hydrophilic head is attracted to polar water molecules by ion-dipole interactions, the oil is then able to disperse emulsifying within the water when agitated.
what are instances where soap does not work (2)
- in an acidic solution
- in hard water
why do soaps not work in acidic solutions
because the hydrogen ions react with soap creating a insoluble fatty acid
what is an example reaction of soap in an acidic solution
CH₃(CH₂)₁₆COO⁻Na⁺ + HCl → CH₃(CH₂)₁₆COOH₍ₛ₎ + Na⁺ + Cl⁺
what is hard water
water containing heavy metal ions such as Ca²⁺ and Mg²⁺
why does soap not work in hard water
as the soap molecules forms strong intermolecular bonds between it and the heavy metal forming a scum
what is an example reaction of soap in hard water
2CH₃(CH₂)₁₆COO⁻Na⁺ + Ca²⁺ → [CH₃(CH₂)₁₆COO⁻]₂Ca²⁺₍ₛ₎+ 2Na⁺
What are the types of detergents and what type head group do they have
- anionic detergents: negatively charged head group
- ionic detergents: Positively charged head group
- non ionic detergents: non-ionic head group
What makes detergents better to use than soaps (2)
- in hard water calcium and magnesium ions bond to the polar head of soap molecules preventing them from acting as a surfactant and producing a scum
- where as detergents do not bond to the magnesium and calcium and therefore can still act as a surfactant whilst in hard water
