because water molecules interact as magnets
check for "cohesive attraction" on internet
Due to the hydrogen bonds that are attracted to one another. This attraction pulls the molecules together and forms the shape.
spherical
Both are spherical in shape.
Depending on the size of the raindrop and the wind speed, updrafts, downdrafts a raindrop can fall at the speed of light. The previous answer was obviously written by an idiot. A raindrop will fall at usually 3 to 8 metres/second. A raindrop will never ever be able to travel at the speed of light.
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.
they both create rainbows because of their spherical shape
rain drop is spherical since the surface tension of sphere is less when compared to other shapes.
Well, the most aerodynamic shape is a teardrop/raindrop shape. You would think a spherical car (assuming you means completely spherical) would be very aerodynamic. But that is false. The exit of the wind passing over/under/around your car is as important as when the wind hits it initially. So a spherical rear end would be much worse that a tapered rear end.
No, they want to be round but get stretched into different shape as they fall by air resistance. Thus raindrops actually do not keep their shape, and they are also not tear-dropped shape. A raindrop starts as a rounded or spherical shape. As it falls down it will eventually lose its shape. It changes shape due to surface tension, speed, and the pressure of the air. Raindrops tend to end up a spherical drop of water.
No, they want to be round but get stretched into different shape as they fall by air resistance. Thus raindrops actually do not keep their shape, and they are also not tear-dropped shape. A raindrop starts as a rounded or spherical shape. As it falls down it will eventually lose its shape. It changes shape due to surface tension, speed, and the pressure of the air. Raindrops tend to end up a spherical drop of water.
No, they want to be round but get stretched into different shape as they fall by air resistance. Thus raindrops actually do not keep their shape, and they are also not tear-dropped shape. A raindrop starts as a rounded or spherical shape. As it falls down it will eventually lose its shape. It changes shape due to surface tension, speed, and the pressure of the air. Raindrops tend to end up a spherical drop of water.
A raindrop would be sphere-shaped if it were floating in space or in the air, but because it does not float, but falls toward the Earth, the raindrop encounters resistance by the air. As the drop passes through the air, the relative motion of the air past the diameter of the spherical drop creates a slight vacuum at the top of the raindrop and that vacuum draws the top of the raindrop upward, creating the pear shape.
Raindrops actually do not keep their shape, and they are also not tear-dropped shape. A raindrop starts as a rounded or spherical shape. As it falls down it will eventually lose its shape. It changes shape due to surface tension, speed, and the pressure of the air. Raindrops tend to end up a spherical drop of water.
Due to the hydrogen bonds that are attracted to one another. This attraction pulls the molecules together and forms the shape.
They are not spherical
circular spherical shape
It is true only for s-orbital which is spherical in shape. p-, f- and d- orbitals are not spherical in shape.