lipid
Lipid
Nonpolar molecules are generally not soluble in water because water is a polar molecule and like dissolves like.
One example of a nonpolar molecule that is not soluble in water is oil. Nonpolar molecules, like oil, do not have a charge imbalance and therefore do not interact well with water molecules, which are polar. As a result, oil tends to separate from water when mixed together, forming distinct layers.
Phosphatidylcholine is more soluble in hexane than in water. This is because phosphatidylcholine is a lipid molecule, which is nonpolar and therefore more soluble in nonpolar solvents like hexane.
Iodine is not a soluble because its non polar and does not dissolve in water , it sinks to the bottom and turns the water a yellow colour.
No, carbon tetraiodide (CI4) is not soluble in water. It is a nonpolar molecule and therefore does not interact well with polar water molecules.
No, the polarity of water contrasts with and repels the nonpolar substane that is cyclohexane.
because it is non polar and water is polar. polar dissolve with polar. nonpolar dissolve with nonpolar
Chloroform is not soluble in water because it is a nonpolar molecule, while water is a polar molecule. Polar substances like water tend to dissolve in other polar substances, and nonpolar substances like chloroform tend to dissolve in other nonpolar substances. This difference in polarity prevents chloroform from effectively mixing or dissolving in water.
No, groundnut oil is not soluble in water because it is a nonpolar substance, while water is polar. Nonpolar substances like oils do not mix or dissolve in polar substances like water.
Butane is a nonpolar molecule, while water is a polar molecule. Nonpolar molecules like butane are not attracted to the polar water molecules, making it insoluble in water. This lack of interaction between the molecules prevents butane from dissolving in water.
Nonpolar compounds are not highly soluble in water because water is a polar molecule. Water molecules form hydrogen bonds with each other, creating a strong network that does not interact favorably with nonpolar molecules. As a result, nonpolar compounds tend to aggregate together instead of mixing well with water, leading to low solubility.