Well it really depends on what type of soap you're using
hot water because of the condensation of the heat that is occurring during the process
Yes,the cold water does rinse the bubbles from the sink faster,it breaks it down quicker than hot water.
Soap will dissolve in hot water than in cold water.
HOT
Hot water will remove it more completely.
because hot water kills more germs than washing it with cold water soap is also needed to kill more germs
no, both cold and hot water can affect soap bubbles
yes
First off heat kills most bacteria so it is especially important for bedding. Heat also expands items so detergent can get into the fabric easier thus clean more effectively.Next Answer:From the perspective of chemistry, heat is one of the things that can begin or accelerate a chemical reaction. Laundry detergent is probably more effective if some heat is added because it either starts a chemical reaction, or makes one faster, and thus can do its job better in the limited amount of time provided by a wash cycle.To make things simpler, the fact that hot water allows for the detergent to dissolve, whereas the soap simply sits on top of the cold water and doesn't do it's job. For example, those who live in the south know that it's easier to sweeten tea while it's hot than when it's cooled off. Just a thought :)
because it does.
Hot water will dissolve soap faster because it is more hot so that means it will melt is and also evaporate with the water.
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.
what will juice do to soap
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.
No, as dishwasher soap (liquid) is oily and will not dissolve in water.
Mix it with water
Soap allows oil to dissolve in water.
no. b'cause cold water has sort of bigger atoms or molicules so it would be no help for you
Yes
Greater surface area for the solvent to act upon.
Greater surface area for the solvent to act upon.