Want this question answered?
Greater surface area for the solvent to act upon.
Yes due to the greater surface area of all the powder grains as compared to the massive bar of soap giving the solvent (water?) better access to the molecules of the soap and thus dissolving it faster.
Yes. The much greater surface area of powdered soap will allow more water molecules to come into contact with the soap particles, dissolving it faster.
Liquid soap is made to mix with water faster than bar soap. Therefore can break up the molecules of fat faster. However if bar of soap was swished about in very hot water it would form a washing up water just about equal to the liquid soap. This was the way we did it in the 1930's using a small wire basket just big enough to take the bar of soap.
A bar of soap, when put in a microwave becomes distorted by air trapped inside the soap expanding and creating lumps.
24
yes
Greater surface area for the solvent to act upon.
Greater surface area for the solvent to act upon.
Yes due to the greater surface area of all the powder grains as compared to the massive bar of soap giving the solvent (water?) better access to the molecules of the soap and thus dissolving it faster.
Yes, the solubility is greater at high temperature.
A bar yes, but no bottles are aloud.
Yes. The much greater surface area of powdered soap will allow more water molecules to come into contact with the soap particles, dissolving it faster.
You are a bar of soap!
Soap shaped as bar
Just pick up a bar of soap in your supermarket and take a read of the ingredients.
Liquid soap is made to mix with water faster than bar soap. Therefore can break up the molecules of fat faster. However if bar of soap was swished about in very hot water it would form a washing up water just about equal to the liquid soap. This was the way we did it in the 1930's using a small wire basket just big enough to take the bar of soap.