The parachutist will no longer accelerate. They will just glide with constant velocity and enjoy the scenery.
It decreases the terminal velocity of the parachutist.
That is the object's terminal velocity.
It stops accelerating, and falls the rest of the way at constant speed.
Terminal velocity defines the point at which an object will no longer accelerate. When a falling object reaches terminal velocity, it will continue to fall at a constant speed.
the constant speed that a freely falling object eventually reaches when the resistance of the medium through which it is falling prevents further acceleration.
There are two possibilities. One is that he is falling at a constant (positive) speed. In this case, the downward force of gravity is exactly offset by the upward force of drag or air resistance. The parachutist is said to have reached terminal velocity. The second possibility is that he is moving downwards at a constant speed of zero. He has hit the ground! The parachutist may be said to have reached a terminal situation!
It decreases the terminal velocity of the parachutist.
terminal velocity
During free fall, the parachutist reaches a terminal velocity (a constant velocity) of somewhere between 120 and 180 miles per hour. (If you go feet first, you go faster than if you lie on your back or front). When the parachute opens (hopefully), the terminal speed is reduced to around 12 miles/hour.
That is the object's terminal velocity.
It stops accelerating, and falls the rest of the way at constant speed.
Terminal velocity defines the point at which an object will no longer accelerate. When a falling object reaches terminal velocity, it will continue to fall at a constant speed.
the constant speed that a freely falling object eventually reaches when the resistance of the medium through which it is falling prevents further acceleration.
The bigger the object the faster it causes it to fall until it reaches terminal velocity, then it falls at a constant speed.
I would imagine that it is uniform acceleration up until terminal speed. However, wind resistance will be higher 10000 feet up, so acceleration may be less at the start
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.
The surface area is the variable to determine how fast an object will be moving when it reaches terminal velocity.