Polar Molecules
Polar molecules such as water-soluble vitamins, sugars, and salts mix well with water due to their ability to form hydrogen bonds with water molecules. This allows them to dissolve in water and form homogeneous solutions. Nonpolar molecules, such as oils and fats, do not mix well with water due to their inability to form hydrogen bonds with water molecules.
Polar molecules, such as salts and sugars, would mix best with water due to their ability to interact with water molecules through hydrogen bonding. Nonpolar molecules, like oils and fats, would not mix well with water because they lack the necessary polarity to form interactions with water molecules. Symmetrical molecules would not have a significant impact on their ability to mix with water, as symmetry does not affect polarity.
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.
Glucose is a molecule that is a source of energy in the body as it is broken down during cellular respiration. It can also be stored in the body as glycogen for later use. Glucose can easily mix with water due to its hydrophilic properties.
Basically water is a polar solvent, meaning it has a positive and negative charge on it and kerosene is non polar the dipoles cancel so it has no charge. The solubility rule is that like substances dissolve like so water would mix with another polar molecule and kerosene would mix with a non polar molecule, hence why the two cant mix very well.
Polar molecule’s
Water and oil does not mix because water is molecule and oil is made of hydrocarbon chains. Only molecule substances can mix with molecule solutes.
Polar molecules such as water-soluble vitamins, sugars, and salts mix well with water due to their ability to form hydrogen bonds with water molecules. This allows them to dissolve in water and form homogeneous solutions. Nonpolar molecules, such as oils and fats, do not mix well with water due to their inability to form hydrogen bonds with water molecules.
Lipids
The detergent molecule contains both nonpolar hydrophobic parts that mix with oil and polar hydrophilic parts that mix with water.
The polarity of a molecule determines whether it is hydrophilic (attracted to water) or hydrophobic (repelled by water). If a molecule is polar, it is typically hydrophilic, meaning it can dissolve in water. If a molecule is nonpolar, it is usually hydrophobic and does not mix well with water.
It is unlikely that you would drink the exact same water molecule twice. Water molecules in the glass mix together and get distributed throughout the body once consumed, so it is improbable that the same molecule would be isolated and consumed again.
libid
Water is a polar molecule with positive and negative charges that attract other polar molecules but repel nonpolar molecules. Nonpolar molecules lack charged regions, so they are not attracted to water and tend to cluster together instead of dissolving in water. This is why oil, for example, does not mix with water.
Polar molecules, such as salts and sugars, would mix best with water due to their ability to interact with water molecules through hydrogen bonding. Nonpolar molecules, like oils and fats, would not mix well with water because they lack the necessary polarity to form interactions with water molecules. Symmetrical molecules would not have a significant impact on their ability to mix with water, as symmetry does not affect polarity.
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.
Glucose is a molecule that is a source of energy in the body as it is broken down during cellular respiration. It can also be stored in the body as glycogen for later use. Glucose can easily mix with water due to its hydrophilic properties.