Free fall is the situation when the object's motion is influenced only by gravity.
In that situation, the object continuously accelerates.
Before we go getting into air resistance, terminal velocity, and all that stuff,
it must be noted that falling through air is NOT free fall.
In free fall, the force of gravity alone causes an object to accelerate in the downward direction.
A falling object will continue to accelerate when free falling, but each object has a maximum speed which it can reach (but go no faster than this speed) when free falling from great heights. True.
The effect of gravity on ANY object - falling or not - is to pull it downward. If the object is in free fall, it will accelerate downwards.
In that case, the object is said to be in "free fall". If the gravity is due to the attraction from a single object, such as Earth, the other object will accelerate towards Earth or whatever.
V (m/s) = 0.5 x 9,81 m / s2 x t2t = time in seconds
In free fall, the force of gravity alone causes an object to accelerate in the downward direction.
In free fall, the force of gravity alone causes an object to accelerate in the downward direction.
A falling object will continue to accelerate when free falling, but each object has a maximum speed which it can reach (but go no faster than this speed) when free falling from great heights. True.
The effect of gravity on ANY object - falling or not - is to pull it downward. If the object is in free fall, it will accelerate downwards.
In that case, the object is said to be in "free fall". If the gravity is due to the attraction from a single object, such as Earth, the other object will accelerate towards Earth or whatever.
V (m/s) = 0.5 x 9,81 m / s2 x t2t = time in seconds
Such an object is said to be in "free fall".
An object is in free fall when only gravity and air resistance (drag) are acting on it. In space, free fall excludes drag.
An object in free fall is one that has only the force of gravity acting upon it.
An object is said to be in free fall if the only force that acts on it is gravity.
A falling object.
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.