I have a project where I want to compare the surface tension of water on a grid of holes that have different shapes. For example; comparing 3 plates that have different hole shapes like a circle, square and triangle. They would have the same number of holes and the same cross-sectional open area. I want to put together a hypothesis for what will happen but I have not been able to find anything online regarding calculations on any kind of hole except for a round one. Any thoughts?
I believe that the sharper the corners the hole has the less surface tension can be applied and therefore more water runs through but I have no basis for this assumption other than my gut. Does anyone have any expertise on this?
Water Surface Tension - Comparing Different Hole Shapes
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Re: Water Surface Tension - Comparing Different Hole Shapes
Hello there!
Here is a link to a science paper related to your experiment: "https://link.springer.com/article/10.10 ... 017-0876-7" It seems to conclude that the corners do have an impact opposed to the round edges, possible supporting your hypothesis. Perhaps someone with more expertise can provide further knowledge.
I hope that begins to help!
-Kayli Masuda
Here is a link to a science paper related to your experiment: "https://link.springer.com/article/10.10 ... 017-0876-7" It seems to conclude that the corners do have an impact opposed to the round edges, possible supporting your hypothesis. Perhaps someone with more expertise can provide further knowledge.
I hope that begins to help!
-Kayli Masuda