One is the liquid's surface tension. A drop of water will be quite spherical because is has strong surface tension, meaning the edges of the droplet are drawn into the centre. Another factor could be the speed with which the drop falls, as the air particles will have to be pushed apart quicker, making the droplet more streamlines, therefore less spherical.
Both are spherical in shape.
A droplet is a very small drop of a liquid. It is typically used to describe tiny, spherical or nearly spherical particles of liquid. For example, raindrops are droplets of water falling from the sky, and when you put a drop of water on a surface,
A sphere has the most efficient ratio between the material's mass and its density.
Flow rate and height of the drop.
Rain drops are not spherical. They are more "tear-drop" shaped, elongated in the direction in which they fall, as the result of air resistance .
One is the liquid's surface tension. A drop of water will be quite spherical because is has strong surface tension, meaning the edges of the droplet are drawn into the centre. Another factor could be the speed with which the drop falls, as the air particles will have to be pushed apart quicker, making the droplet more streamlines, therefore less spherical.
Both are spherical in shape.
A droplet is a very small drop of a liquid. It is typically used to describe tiny, spherical or nearly spherical particles of liquid. For example, raindrops are droplets of water falling from the sky, and when you put a drop of water on a surface,
a sphere is the most efficient shape to contain volume. surface tension draws the drop into the sphere, like elastic.
Surface Tension
A sphere has the most efficient ratio between the material's mass and its density.
Flow rate and height of the drop.
No, liquids do not have a fixed shape. They take the shape of the container they are in.
rain drop is spherical since the surface tension of sphere is less when compared to other shapes.
The common conception of the water drop shape is the shape a liquid like water takes when it's dangling from a surface, like a droplet hanging from a tap. Raindrops in the air usually have a spherical shape.
Spherical to tear-drop shape. The latter is the most hydrodynamically efficient, forced by the falling drop's slipstream, with a spherical-cap nose tapering back to a pointed tail.
Rain drops are not spherical. They are more "tear-drop" shaped, elongated in the direction in which they fall, as the result of air resistance .