you cant really remove them because they are already separated
Alkali react with greases and oils forming water soluble soaps.
shampoo is an emulsifier, meaning it bonds to water and oils. So by using shampoo and other soaps, the shampoo bonds to the oils and dirt in our hair, and the water also bonds to the shampoo so the oils are removed by rinsing the hair
no cuz the water will remove the hamsters natural body oils or something like that. it will probably get sick.
Salting out is a technique used in the preparation of aromatic waters to remove water-insoluble impurities. By adding salt to the mixture, it increases the ionic strength of the solution, causing the essential oils to separate from water. The oils can then be collected and used to prepare the aromatic water.
No, lipids such as oils do not have high water content. Oils are hydrophobic substances, which means they do not mix well with water and therefore have very low water content.
Essential oils can be effectively dissolved in water by using a dispersant or emulsifier to help the oil mix evenly with the water. This can be achieved by using substances like alcohol, solubilizers, or carrier oils to help the essential oils disperse in the water.
Yes, essential oils can be mixed with water for aromatherapy purposes, but it is important to use a proper emulsifier to ensure the oils are properly dispersed in the water.
the bubbles in the detergent are soap. ---------------------------------------------------------------------- generally a chemical reaction with water and force (spin) will cause stains to disolve - jenright2011
No, all oils are water-repellents. Because of the molecular structure of oils, they are unable to bond to the water.
because they have different melting/ boiling points.
Soap is dissolved in water.
The best way to remove it is with water and some shampoo. Peanut butter will not permanently stick to or damage hair, which is good. Water will rinse it out, but shampoo is important so that the oils wash out and don't make your hair greasy.