Water Drops Are Spherical In Shape Why at Oliver Goodisson blog

Water Drops Are Spherical In Shape Why. Because there is cohesive force of. When a liquid drop is. As a result the liquid assumes a spherical shape because for a given volume, a sphere has the minimum surface area. Liquid drops are spherical in shape because liquids have the tendency to have minimum surface area due to surface tension. When we put water droplets on glass, it is not purely spherical in shape. Intuitively, the equilibrium shape of the drop is a sphere. Although easily deformed, droplets of water tend to be pulled into a spherical shape by the cohesive forces of the surface layer. Small raindrops have a radius of less than a millimeter and are spherical in shape. In the absence of other forces, including. Water drops, or, for that matter, the drops of any other liquid, are spherical in shape due to a. The largest ones take the shape of hamburger. Consider a drop of water floating in an inertial frame in stp air (e.g., the iss).

Because there is cohesive force of. When a liquid drop is. In the absence of other forces, including. Consider a drop of water floating in an inertial frame in stp air (e.g., the iss). When we put water droplets on glass, it is not purely spherical in shape. Small raindrops have a radius of less than a millimeter and are spherical in shape. Liquid drops are spherical in shape because liquids have the tendency to have minimum surface area due to surface tension. Although easily deformed, droplets of water tend to be pulled into a spherical shape by the cohesive forces of the surface layer. As a result the liquid assumes a spherical shape because for a given volume, a sphere has the minimum surface area. Intuitively, the equilibrium shape of the drop is a sphere.

explain why liquid drops are spherical Brainly.in

Water Drops Are Spherical In Shape Why Liquid drops are spherical in shape because liquids have the tendency to have minimum surface area due to surface tension. Intuitively, the equilibrium shape of the drop is a sphere. Water drops, or, for that matter, the drops of any other liquid, are spherical in shape due to a. Small raindrops have a radius of less than a millimeter and are spherical in shape. Because there is cohesive force of. Consider a drop of water floating in an inertial frame in stp air (e.g., the iss). The largest ones take the shape of hamburger. Although easily deformed, droplets of water tend to be pulled into a spherical shape by the cohesive forces of the surface layer. When we put water droplets on glass, it is not purely spherical in shape. Liquid drops are spherical in shape because liquids have the tendency to have minimum surface area due to surface tension. When a liquid drop is. In the absence of other forces, including. As a result the liquid assumes a spherical shape because for a given volume, a sphere has the minimum surface area.