Water droplet is spherical when water is thrown in air because of surface tension in water molecules which forces it to assume the smallest shape possible.
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,
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.
the difference between a snowflake and a water droplet is that a water droplet is a snowflake before and after it is actualy formed!!
because water in the atmosphere is in a form of vapor
It is held in a spherical shape by the surface tension of the water/air boundary which forces the droplet to assume the smallest surface area possible (which is a sphere).
Water droplet is spherical when water is thrown in air because of surface tension in water molecules which forces it to assume the smallest shape possible.
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,
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.
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.
two things. surface tension and gravity. surface tension is the molecular bond of the water binding the molecules together on the surface of the droplet, preventing them from spreading out. The addition of a solute (like soap) to the water can break these bonds causing it to spread. Also the gravity of the water molecules acting on one another want to form a spherical shape, where the molecules on the surface of the droplet will be equidistant from the center of gravity of the droplet. The water droplet is too small for the force of earth's gravity to overcome the surface tension, therefore becoming more negligible as the droplets become smaller. The wax in the wax paper prevents the paper from absorbing the water.
the difference between a snowflake and a water droplet is that a water droplet is a snowflake before and after it is actualy formed!!
The area is 0. The droplet is approximately spherical and because of the curvature, its bottom consists of a single point. And a point has no area.
Water molecules are attracted to each other by 'cohesive force'. It is the force that holds a droplet of water together in a raindrop, or in a semi-spherical shape if dripped onto glass. Water is also affected by ' adhesive force' which causes the droplet on glass to adhere (stick ) to the glass as well. In a thin glass tube the adhesive force makes the water move upwards.
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.
All you need is two drops that are not the same shape to prove they are not the same. Compare drops of water dripping from a tap (faucet) which is elongated, and one in zero gravity, is spherical.
direct chance of precipitation increases and water droplet increases