A non polar compound would be least likely to dissolve in water.
Non-polar compounds are least likely to dissolve in water because water is a polar solvent and non-polar compounds do not interact well with polar substances. Ionic compounds and charged compounds are more likely to dissolve in water due to their ability to interact with the polar water molecules.
A non polar compound would be least likely to dissolve in water.
A nonpolar molecule, such as oil, would be least likely to completely dissolve in water due to the difference in polarity between the two substances. Nonpolar molecules are hydrophobic and do not easily mix with water, which is a polar solvent.
Non-polar substances like oil and fats are least likely to dissolve in water because water is a polar molecule while oil and fats are non-polar. This difference in polarity leads to low solubility between the two.
Ionic compounds would be least likely to dissolve in water as they are held together by strong electrostatic forces that are not easily broken by water molecules. Non-polar compounds are also unlikely to dissolve in water because water is a polar solvent and non-polar compounds are not attracted to water molecules.
The polarity or charges of compounds will determine if a compound would dissolve in water, where compounds with opposite charges within their molecules dissolve in water.
yes
This method may work in certain cases, but many polar compounds are immiscible in water. An example would be fatty acids: polar by definition, but can be insoluble in H2O as their tail length increases
An ionic compound can form interactions with water. Water happens to be a polar molecule. The positive ions are going to react with the partially charged negative ions (that are in the water). The negative ions will react with the partially positive charged hydrogen atoms in the water. But the ionic compound won't dissolve in oil because it can't form the same reaction.
phenols
No, at least not in water.
water