the soap contains amphipathic molecules which can interact with hydrophobic as well as hydrophillic solvents. the hydrophilic end will interact with the water molecules whereas hydrophobic ends will concentrate at a very small portion and as a result a micell formation takes place.
Water is a versatile molecule because of its polarity.
The polarity of the water molecule is what makes water a great solvent. It called the universal solvent.
The property of water that has made it such an effective solvent is the polarity of the molecule. It is highly polar.
Yes. Polarity is an inherent property of the water molecule.
a polar molecule is a molecule such as a lipid that has one part of it attracting something , such as water (hydrophillic) and the other repeling it (hydrophobic)
Water is a versatile molecule because of its polarity.
This is the polarity of the water molecule.
The polarity of the water molecule is what makes water a great solvent. It called the universal solvent.
polarity
the unequal sharing of electrons
becase of the polarity in water it is ver soluble
The polarity is a vector quantity. The resultant of the polarity of bonds determines the polarity of the molecule. In CO2 there is polarity between the two C-O but the polarity is equal and opposite in direction so CO2 doesn't have polarity. If the polarity of bonds is not cancelled then the polarity remains in the molecule.
The property of water that has made it such an effective solvent is the polarity of the molecule. It is highly polar.
asymmetrical charge distribution
The polarity of the water molecule is responsible for most of water's properties.
This is the difference of electronegativity between oxygen and hydrogen.
CH3OH is a polar molecule owing to the polarity rendered by the -OH group. Its structure can be thought of as very similar, if not exactly, to the water molecule, and the CH3- group decreases the polarity as compared to water.