FIRST ,Oil is nonpolar .
When mixing oil and water, the oil will break up into small droplets and be dispersed in the water temporarily. After leaving the jar with the mixture alone for a while, the two liquids will separate with the oil forming a layer on top of the water because of its smaller density. The insolubility of the liquids is due to the fact that the water is polar and hydrophilic, while the oil is nonpolar and hydrophobic, and only like substances are soluble in each other. Polarity is imparted by the unequal sharing of electrons in the bonding of hydrogen and oxygen to form water. This results in regions of partial positive and negative charge, which lead to hydrogen bonding, or "holding hands" of the water molecules. These bonds are weak, but reform quickly. The oil is a hydrocarbon that shares its electrons evenly, thus creating no partially charged regions or intermolecular bonding. Therefore, when only water and oil are mixed, the hydrogen bonds of the water reform, excluding the nonpolar, hydrophobic oil molecules, which separate out at the top due to their smaller density. Soap is a molecule with a polar, hydrophilic head region and a long, nonpolar, hydrophobic tail. Therefore, it can mix with with oil and water. the nonpolar tails of the soap associate with the drops of oil, leaving the hydrophilic heads interacting with the water (this is called a micelle). This way, the small drops of oil become interspersed in the water, since many of the H-bonds were broker, and the micelles slip into these newly formed spaces.
This relates to every day life in many ways.
1. This is how detergents clean the dirt and oil from your clothes. The hydrophobic tails of the soap interact with the oil droplet adhering to the cloth fibers. the droplet can now be washed away and interact with the water because it is surrounded by the hydrophilic heads of the soap molecule.
2. This is how salad dressings and mayonnaise are made. Proteins, such as in eggs, also have hydrophilic and hydrophobic regions. Therefore, they surround the oil and intersperse it in the polar vinegar to make mayonnaise. Commercial emulsifiers are used in many salad dressings.
3. This is how bile works in your digestive system to break down fats. It also has a hydrophilic and hydrophobic region. Therefore, it surrounds the ingested lipids in this same manner, so they can be distributed in the digestive system or the blood stream. The formation of the small, emulsified droplets also increases the surface area that digestive enzymes are able to attack.
Oil with electronegativity more than 0.4 and less than 1.7
Engine oil doesn't have polarity.
polarity! Polarity is the reason that water and oil do not mix
there is none
Water molecules have a higher electric polarity than oil.
Ubidecarenone has low polarity and therefore is oil-soluble but insoluble in water. Ubidecarenone is also known as ubiquinone and most commonly as Coenzyme Q10, or CoQ10 for short.
By polarity, the opposite charges attract each other.
-- negative polarity -- positive polarity
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.
Polarity
Yes, it can. The polarity of both solvent and solute is low meaning both are hydrophobic compounds or substances
polarity order of ehanol methanol n-hexane and distilled water
Reversing polarity ,changes the rotation of the device you are changing polarity on.