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What happens to the soap after allowing the water to hit the surface?

it bubbles


What happens to the soap after allowing the water to hit it's surface?

When water hits the surface of soap, it causes the soap molecules to attract both water and oil. This leads to the formation of bubbles as the soap molecules orient themselves at the water-oil interface, encapsulating oil and dirt to be washed away.


Why does dawn dish soap repel pepper?

Soap breaks the surface tension of water. Pepper will only float where there is strong surface tension.


How does soap effects the surface tension if water?

the surface tension has bonds, and the soap breaks those bonds, so if the soap water is put onto a surface.. it will slip off


Why does dish soap repel peper?

Dish soap contains surfactants that lower the surface tension of water. When pepper is sprinkled on water with dish soap, the surface tension decreases, causing the pepper to move away from the soap and spread out on the surface. This repelling effect is due to the interaction between the dish soap and the water molecules.


What is a soap bubble made of?

thin film of soap water that forms a sphere with an iridescent surface.thin film of soap water that forms a sphere with an iridescent surface. thin film of soap water that forms a sphere with an iridescent surface.thin film of soap water that forms a sphere with an iridescent surface. thin film of soap water that forms a sphere with an iridescent surface.thin film of soap water that forms a sphere with an iridescent surface. thin film of soap water that forms a sphere with an iridescent surface.thin film of soap water that forms a sphere with an iridescent surface.


Why does soap reduce the surface tension of water?

Soap will lower the surface tension of water. Like any surfactant soap will lower the surface energy by disrupting the strong inter-molecular hydrogen bonding that confers such a strong surface tension to water.


Can you explain the soap and pepper experiment and its significance in demonstrating surface tension?

The soap and pepper experiment demonstrates surface tension by showing how soap disrupts the surface tension of water. When pepper is sprinkled on water, it floats due to surface tension. Adding soap breaks the surface tension, causing the pepper to move away from the soap. This experiment helps illustrate how surface tension works and how it can be affected by different substances.


What reaction produces a floating film on waters surface?

The reaction of soap with water produces a floating film on the water's surface. This is due to the amphiphilic nature of soap molecules, which have water-attracting and water-repelling properties. When soap is added to water, it forms a thin layer on the surface due to these properties.


Why pepper goes to the sides when soap touches the water?

When soap is added to water, the soap molecules disrupt the surface tension of the water. This disruption causes the water to push the pepper particles to the sides, away from the soap, in an attempt to minimize contact with the soap molecules.


What happens to soap and pepper in water?

ONLY PARTIALLY CORRECT: because of the surfice tension, the pepper is floating and when soap is applied the soap spreads rappidly so the soap accually pushes the pepper to the side---------------------------------This can't be the answer because it works the same whether you use liquid soap or powder -- which isn't "spreading rapidly". I used a single grain of Tide Laundry Detergent and saw the same effect but on a smaller scale. I dropped it in, and the grain was still visible while the pepper moved away.It's surface tension, yes, but NOT "soap spreads rapidly" and NOT "pushes pepper to the side"". The surface tension is broken because of the form and function of the soap molecules in relation to the water molecules. The pepper remains floating where the surface tension remains strong.This is because the soap breaks the surface tension of the water and the tension on the rest of the water pulls the floating pepper away from the soap.Water molecules are very sticky. They have a strong attraction to other water molecules. In the center of a glass of water, the molecules are sticking to other water molecules in all directions.The water molecules beside your finger suddenly stick to the soap molecules instead of each other. The other water molecules on the surface are still pulling and the water at the edges is still pulling, but the water in the center is not pulling back. The surface molecules and the pepper sat on the surface are all pulled quickly to the sides.because of the tensionThe actual science happens because the soap breaks the surface tension of the water, like popping a balloon. It is the water that moves, not the pepper that is floating on it.The actual science happens because the soap breaks the surface tension of the water , like popping a ballon . It is the water that moves , not the the pepper that is floating on it .Water molecules are very sticky. They have a strong attraction to other water molecules. In the center of a glass of water, the molecules are sticking to other water molecules in all directions.The water molecules beside your finger suddenly stick to the soap molecules instead of each other. The other water molecules on the surface are still pulling and the water at the edges is still pulling, but the water in the center is not pulling back. The surface molecules and the pepper sat on the surface are all pulled quickly to the sides.Because the detergent reduces the cohesiveness of the pepper and the pepper along the sides pulls the pepper towards the sidesThis is my theory:Like many detergents, soap pulls apart molecules. That is the whole point, to loosen dirt. So soap separates the pepper and the water. Detergents break up the water's surface tension, making the pepper separate.


Why does the pepper run away when soap is added?

Soap disrupts the surface tension of water. So if you have fine particles floating in water (I personally use parsley flakes, which float better than pepper does) and you put a tiny trace of soap on your finger, and then touch the water, it breaks the surface tension at that point - but the surface tension of the water on the OTHER side of the flake is unchanged. The surface tension pulls the flakes away from the soap. So the flakes aren't running away - they are being released from the surface tension!