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Neutral charge, nonpolar, and hydrophobic.
Nonpolar solvents are typically unable to dissolve polar or ionic solutes, as their molecular structure lacks the necessary polarity or charge to interact with these solutes. However, nonpolar solvents can dissolve nonpolar solutes, such as hydrocarbons or organic compounds with long chains of carbon and hydrogen atoms.
The nonpolar part ( -end, -tail) of the 'soap' molecule will stick into the nonpolar oil phase, the polar part 'connects' it with the water phase (micel formation).
I would describe the characteristics of the tail of a phospholipid molecule would be mosaic of lipid molecules. The process of theses cells are talked and learnt in science.
ionic molecules dissolve the most. but some polar covalent molecules also do dissolve in water.
it is a polar bear without a tail
Soap is actually both. It is similar to a phospholipid in that it has a polar head and a nonpolar tail.
A head and a tail. The head is hydrophilic (polar) and the tail is hydrophobic (nonpolar) .
A head and a tail. The head is hydrophilic (polar) and the tail is hydrophobic (nonpolar) .
ionic molecules
Neutral charge, nonpolar, and hydrophobic.
Nonpolar solvents are typically unable to dissolve polar or ionic solutes, as their molecular structure lacks the necessary polarity or charge to interact with these solutes. However, nonpolar solvents can dissolve nonpolar solutes, such as hydrocarbons or organic compounds with long chains of carbon and hydrogen atoms.
For nonpolar substances, anything that is symmetrical is nonpolar, so something likeHexane (C6H12) or any other hydrocarbon would work.
The nonpolar part ( -end, -tail) of the 'soap' molecule will stick into the nonpolar oil phase, the polar part 'connects' it with the water phase (micel formation).
Covalent because its 2 nonmetals bonding
I would describe the characteristics of the tail of a phospholipid molecule would be mosaic of lipid molecules. The process of theses cells are talked and learnt in science.
Water will dissolve anything that is polar but oil is nonpolar. It usually takes nonpolar liquids to dissolve a nonpolar substance. Soap molecules help with this because they have a polar head that interacts with water nicely and a nonpolar tail that interacts with things like oil. The end result is a drop of oil with a layer of soap floating around in the water.