The wind if it is windy the drops explode on the way down to Earth full size raindrops are mostly seen with very little Wind.
The size of a raindrop is primarily determined by the balance between air resistance, surface tension, and gravity acting on the water droplet as it falls through the atmosphere. Larger raindrops tend to form in environments with high humidity and strong updrafts, while smaller raindrops tend to form in drier environments with weaker updrafts.
One raindrop can potentially be formed by the melting of thousands of snowflakes. The exact number of snowflakes making up a raindrop may vary depending on the size of the snowflakes and environmental conditions.
A raindrop's force is typically very small and varies depending on its size and speed. On average, a raindrop falling at terminal velocity has a force equivalent to about 0.01 Newtons.
On average, it takes about 7 minutes for a raindrop to fall from a cloud to the ground. However, this can vary depending on the size of the raindrop, the height of the cloud, and the speed of the wind.
The average speed at which a raindrop falls is around 7 to 18 miles per hour. However, this speed can vary depending on the size of the raindrop and the air resistance it encounters.
The shape of raindrops is determined by surface tension forces, air resistance, and gravity. As raindrops fall through the atmosphere, they start off spherical but can become distorted due to these factors, resulting in various shapes such as teardrops or flattened discs.
The volume of a raindrop typically ranges from 0.1 to 1 milliliter, depending on its size. The average size of a raindrop is around 0.5 millimeters in diameter.
The average weight of a raindrop is around 0.02 to 0.03 grams, but this can vary depending on the size of the raindrop.
The average speed of a raindrop falling is around 8-10 miles per hour. However, this speed can vary depending on the size and shape of the raindrop.
The colors seen when light exits a raindrop are determined by the refraction, dispersion, and reflection of light within the raindrop. Light entering the raindrop is refracted, dispersed into its component colors, and then reflected internally before exiting, creating a spectrum of colors known as a rainbow.
One raindrop can potentially be formed by the melting of thousands of snowflakes. The exact number of snowflakes making up a raindrop may vary depending on the size of the snowflakes and environmental conditions.
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.
The largest recorded raindrop fell in Brazil in 1986 and measured about 8.8 millimeters in diameter. This is more than 50 times larger than an average raindrop.
The size of the normal force and coefficient of friction determines the size of frictional force.
It depends on what you mean by size: its length, volume, surface area or even its mass.
A raindrop's force is typically very small and varies depending on its size and speed. On average, a raindrop falling at terminal velocity has a force equivalent to about 0.01 Newtons.
The rate at which magma cools determines the size of the mineral crystal.
On average, it takes about 7 minutes for a raindrop to fall from a cloud to the ground. However, this can vary depending on the size of the raindrop, the height of the cloud, and the speed of the wind.