They reach their terminal velocity.
Its the air resistance that causes the free falling body to reach its terminal velocity
the terminal velocity is the total speed that its take an object to reach the point it required from the initial velocity
Absolutely correct.
In skydiving, the standard time to reach terminal velocity is about 12 seconds. Of course, "your mileage may vary....."
They reach their terminal velocity.
We will reach terminal velocity just before we hit the ground, then the result of our velocity will be terminal.
Its the air resistance that causes the free falling body to reach its terminal velocity
the terminal velocity is the total speed that its take an object to reach the point it required from the initial velocity
Absolutely correct.
The viscosity of air provides a drag force on a raindrop and keeps it from falling with the acceleration of gravity. When a drop is falling (assuming it does not combine with other drops in the process) it will reach a terminal velocity which depends on its diameter. The larger the diameter the larger the terminal velocity. Specifically, the terminal velocity is proportional to the square root of the diameter of the drop. Big rain drops fall faster than small rain drops. See related links for details and equations.
In skydiving, the standard time to reach terminal velocity is about 12 seconds. Of course, "your mileage may vary....."
The fastest velocity a falling object can reach is called its terminal velocity. This happens when the force of air resistance is equal to the downwards force of weight (gravity), so the object is in equilibrium, and thus reaches a constant velocity.
It may unless it has an attached parachute
all objects have a terminal velocity once youu reach terminal velocity you can not fall any faster
The difference between terminal speed and terminal velocity is really simple. Terminal speed can be used to refer to the maximum speed an object can reach before factors like friction prevent anymore speed to be gained. Terminal velocity, however, generally refers to the rate at which this speed was gained.
Yes. - And please don't combine "does" and "is" in the same question that way.