When an object is not accelerating or decelerating, it has a net force of zero.
Terminal velocity is the speed at which the drag forces upwards on a falling object (a skydiver for example) are equal to the pull of gravity downwards, so that the vertical speed remains constant and no longer increases.
Terminal velocity for a human is around 180 mph when free falling in the head down or feet down position.
-- "Terminal velocity" means the object's downward speed has become constant.
-- Constant speed means zero acceleration.
-- Zero acceleration means zero net force acting on it.
-- In the case of a falling object, it means that the downward force of gravity has been
equalled by the upward force of air resistance, and they add up to zero.
-- (There's really no such thing as the force "of" an object.)
Terminal velocity is reached when the force of gravity is equal to the drag (force) on an object.
... when the force of gravity is in equilibrium with the force of friction. When both forces are equal in magnitude, the object will no longer accelerate.
Wind resistance.
The greatest velocity a falling object reaches is called the terminal velocity.For an object falling at the terminal velocity, the weight force of the objectis balanced by the drag force and buoyant force on the object.W + FDRAG + FBUOYANT = FNET = 0.0
The net force is zero.
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.
Terminal velocity means the object no longer accelerates; that means that all forces are in balance, the net force is zero.
100-N
the greatest velocity a falling object reaches is terminal velocity
the greatest velocity a falling object reaches is terminal velocity
Terminal
The greatest velocity a falling object reaches is called the terminal velocity.For an object falling at the terminal velocity, the weight force of the objectis balanced by the drag force and buoyant force on the object.W + FDRAG + FBUOYANT = FNET = 0.0
The name for it is "terminal velocity". What it is depends on what the object is.
The greatest velocity, achieved when the acceleration due to gravity is balanced by the aerodynamic deceleration, is called the terminal velocity.
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.
The greatest velocity that a falling object can achieve is termed, terminal velocity. The equation for terminal velocity is equal to the square root of (2mg / (air density * projected area * drag coefficient))
When THE FRICTION BETWEEN THE OBJECT AND THE ATMOSPHEREequals the force of gravity on a falling object the object reaches terminal velocity.
Zero.
The greatest velocity any object can have on earth is it's terminal velocity. That means when the force of gravity is eventually overcome by the force of air resistance of the falling object. An example of this would be that a falling feather reaches its terminal velocity much quicker (and therefore falls much slower) than something that is more dense and aerodynamic, such as a bowling ball or a baby.
If air resistance is significant, after falling for a while the air resistance will be as strong as the force of gravity; the two forces will be in equilibrium, and the object won't accelerate any more. This velocity is called "terminal velocity". The amount of this terminal velocity, and the time it takes to approach the terminal velocity, depends on the specific object that is falling.