Water Drops Are Spherical Because Of. the top remains spherical, even on bigger falling raindrops, because surface tension—those water molecules clinging to. although easily deformed, droplets of water tend to be pulled into a spherical shape by the cohesive forces of the surface layer. However, unless these drops fall on a window, it does not have a similar. raindrops are not necessarily spherical because they encounter aerodynamic forces when falling. raindrops start to form in a roughly spherical structure due to the surface tension of water. This surface tension is the skin of a body of water that makes the. liquid drops are spherical in shape because liquids have the tendency to have minimum surface area due to surface tension and. an isolated drop that isn’t distorted by external forces is pulled by its surface tension into a spherical shape. Small drops are spherical, but as they grow larger, they attain a hamburger bun shape. the top remains spherical, even on bigger falling raindrops, because surface tension—those water molecules clinging to each other—is greater than the.
raindrops are not necessarily spherical because they encounter aerodynamic forces when falling. raindrops start to form in a roughly spherical structure due to the surface tension of water. the top remains spherical, even on bigger falling raindrops, because surface tension—those water molecules clinging to each other—is greater than the. an isolated drop that isn’t distorted by external forces is pulled by its surface tension into a spherical shape. However, unless these drops fall on a window, it does not have a similar. liquid drops are spherical in shape because liquids have the tendency to have minimum surface area due to surface tension and. the top remains spherical, even on bigger falling raindrops, because surface tension—those water molecules clinging to. Small drops are spherical, but as they grow larger, they attain a hamburger bun shape. This surface tension is the skin of a body of water that makes the. although easily deformed, droplets of water tend to be pulled into a spherical shape by the cohesive forces of the surface layer.
11.3 Some Properties of Liquids Chemistry LibreTexts
Water Drops Are Spherical Because Of an isolated drop that isn’t distorted by external forces is pulled by its surface tension into a spherical shape. an isolated drop that isn’t distorted by external forces is pulled by its surface tension into a spherical shape. However, unless these drops fall on a window, it does not have a similar. raindrops are not necessarily spherical because they encounter aerodynamic forces when falling. liquid drops are spherical in shape because liquids have the tendency to have minimum surface area due to surface tension and. the top remains spherical, even on bigger falling raindrops, because surface tension—those water molecules clinging to. Small drops are spherical, but as they grow larger, they attain a hamburger bun shape. although easily deformed, droplets of water tend to be pulled into a spherical shape by the cohesive forces of the surface layer. This surface tension is the skin of a body of water that makes the. the top remains spherical, even on bigger falling raindrops, because surface tension—those water molecules clinging to each other—is greater than the. raindrops start to form in a roughly spherical structure due to the surface tension of water.