Any difficult task, you can overcome or achieve by consistency or by perseverance.
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.
It means your dead!
That was a quinny answer. Snow works by falling form the sky and it landing. If its cold the clouds will drop the rain and it will turn into snow on the way down>
Water on Earth is subject to the pull of gravity. Water in the form of clouds is in such tiny drop-lets, that it's suspended until something makes the drop-lets join together, making them heavy enough to be pulled back to Earth.
the water must reach a certain mass weight in order to release the faucet surface and fall, therefore with a slow leak the drop can form a larger drop before falling.
Falling objects behave in such a way that heavier objects will fall faster than the lighter ones. Try to drop a stone and a feather from the same height and at the same time, the stone will fall to the ground first.
Pin Drop Violence was created in 2000.
the reason why is because of the shape and weight if the rain drop. the weight of a rain drop is less than a gram and the shape of one when falling from the sky, has a lot of drag. this means that the terminal velocity of a rain drop is very slow
of Drop, The action of causing to drop or of letting drop; falling., That which falls in drops; the excrement or dung of animals.
a case with my son would like to drop
drop it a 101ft
The stone gets wet.
yes they do they stick to others as they are falling but they dont grow after falling
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.
It means the case is over, it has been decided, it is closed.
Considering the rain droplets as spherical body. We have two forces acting on the rain drop when it is falling through the sky, namely the resistance force due to friction(drag force)upwards and its weight downwards. Th rain drop falling from such distance attain a terminal velocity while falling i.e their speed becomes constant after sometime. This happens when the drag force equals the weight of drop,, this happens because drag force increases with velocity of the drop. Drag force= .5*rho*v2*A(frontal area)*Cd(coefficient of drag) Weight=m*g=rho*volume of spherical drop=rho*4/3*r3. When we equalize it, we get the Terminal Velocity(v) varying directly as sqr of r(radius of drop) So larger drop means, larger terminal velocity and hence less time taken for falling. So larger rain drop falls faster.
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