it's attraction force that attract the surface of fluid toward under
Surface tension coefficient, also known as surface tension, is the force acting on the surface of a liquid that causes it to behave like a stretched elastic membrane. It is a measure of the strength of the attractive forces between molecules at the surface of a liquid. The higher the surface tension, the more difficult it is to break the surface of the liquid.
Each liquid hydrocarbon has a different surface tension.
capillary action is a common consequence of surface tension.
Surface tension.
it affects the surface tension because of its temperture
Surface tension.
cohesion
it's attraction force that attract the surface of fluid toward under
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.
By providing space and cracks in the Earth's crust.
Due to surface tension, the upper surface of water acts like a stretched membrane which enables it to float a swing needle.
The surface tension of water is increased for salted water.Sodium chloride increase the surface tension of water.
One force I am positive about is surface tension- I can't explain too well because I am barely learning about this. I hope this answer helps you! =)
Adding surfactants the surface tension decrease.
No, mercury has a higher surface tension.
Surface tension coefficient, also known as surface tension, is the force acting on the surface of a liquid that causes it to behave like a stretched elastic membrane. It is a measure of the strength of the attractive forces between molecules at the surface of a liquid. The higher the surface tension, the more difficult it is to break the surface of the liquid.
Surface tension is the force that acts on particles at a liquid's surface. It is caused by the cohesive forces between the liquid molecules, which creates a barrier that resists the penetration of external objects or forces. This force is responsible for phenomena such as capillary action and the formation of droplets.