No. What brings rain down, gravity, is a force. Rain is simply water being pulled down by gravity in little drops from clouds in the sky.
You would need the mass of the rain drop(s) you are calculating and since it is falling downwards (not including any interfering forces) it would be falling at a constant acceleration of 9.8ms squared, so using the formula force = mass X acceleration you would be able to get the resultant force
Gravity is the force that causes rain to fall from the clouds. As water droplets in the clouds become too heavy to stay suspended, gravity pulls them down towards the Earth's surface, resulting in rainfall.
If there is no wind, the rain will just fall straight down.
Gravity is the force that brings precipitation, such as rain or snow, to the ground. As precipitation falls through the atmosphere, gravity pulls it downward until it reaches the Earth's surface.
Rain doesn't hurt when it falls from the sky because the water droplets are very small and light, so they don't have enough force to cause pain when they hit our skin.
The rain is an angry force is an example of a metaphor.
The rain is an angry force is an example of a metaphor.
your hair gets wet in the rain because the vapour of the water and its force
like rain or weather
Rain, mostly. Cloud seeding is an attempt to force rain to fall.
Yes. The force of the rain itself is not damaging, but the amount of rain delivered means that many hurricanes cause extensive flooding.
Gravity is the force that pulls everything downward, causing rain and soil to run down a slope. This gravitational force is responsible for the movement of water and soil on Earth's surface.
The force of rain hitting the ground is typically not strong enough to cause damage or harm. Raindrops fall at terminal velocity, which is the maximum speed they can reach due to air resistance. The force is usually equivalent to that of a gentle breeze or a light tap.
Mountain ranges force moist air upward and the rain then falls on the windward side of the mountains forming a rain shadow on the leeward side. See the image above.
No because the rain will force the shuttle down
You would need the mass of the rain drop(s) you are calculating and since it is falling downwards (not including any interfering forces) it would be falling at a constant acceleration of 9.8ms squared, so using the formula force = mass X acceleration you would be able to get the resultant force
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.