Water loving
The lipophilic tail of a surfactant molecule is considered to be hydrophobic, meaning it repels water and is attracted to nonpolar substances such as oil or grease. This allows the surfactant to interact with both water and oil, helping to emulsify them and form stable mixtures.
Water resistant
This is called the hydrophobic 'side' of the phospholipid molecule
The bend in the fatty acid tail of a phospholipid molecule is due to the presence of double bonds in the carbon chain. These unsaturated fatty acids cause a kink or bend in the tail, affecting the fluidity and packing of phospholipid molecules in the cell membrane.
A phospholipid molecule has a nonpolar head (hydrophobic) and a polar tail (hydrophilic). This unique structure allows phospholipids to form the bilayer structure found in cell membranes.
The hydrophobic portion of the phospholipid molecule is the fatty acid tails. These tails consist of long hydrocarbon chains that do not interact well with water molecules, making them nonpolar and hydrophobic.
The hydrophobic tail of a soap molecule is responsible for dissolving fats and oily dirt. This tail is attracted to the fats and oils, while the hydrophilic head of the soap molecule is attracted to water, allowing the soap to emulsify the dirt and oils in water and wash them away.
The tail of a phospholipid molecule is hydrophobic, while the head is hydrophilic.
This is called the hydrophobic 'side' of the phospholipid molecule
This is called the hydrophobic 'side' of the phospholipid molecule
This is called the hydrophobic 'side' of the phospholipid molecule
This is called the hydrophobic 'side' of the phospholipid molecule
This is called the hydrophobic 'side' of the phospholipid molecule
Head and hydrophobic tail
Head and hydrophobic tail
Head and hydrophobic tail
The bend in the fatty acid tail of a phospholipid molecule is due to the presence of double bonds in the carbon chain. These unsaturated fatty acids cause a kink or bend in the tail, affecting the fluidity and packing of phospholipid molecules in the cell membrane.
binds an amino acid
Yes, by adding a surfactant which is detergent. it acts by attaching the polar water with its head and the non polar oil by its tail. so they mix