Because there are a pair of equal gravitational forces between every two masses,
and they act along the line between the centers of the masses. The line between
the center of the Earth and the center of you is the direction toward the ground,
so that's where things fall toward when you let them go.
An objects weight is what makes it fall. Weight is an objects mass multiplied by the strength of the gravitational field it is in. So an object with mass is in free fall when it is in a gravitational field.
So gravity causes objects to fall freely.
gravity makes things fall just like what Sir Issac Newton said, the earth is attracted by you and you attracted with it......
it falls because of gravity since there is gravity on earth it falls
in the outer space it wouldn't fall because there is no gravity
because you're outside. Otherwise they fall to the floor.
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Such an object is said to be in "free fall".
An object is said to be in free fall if the only force that acts on it is gravity.
In free fall, the force of gravity alone causes an object to accelerate in the downward direction.
When the only force on an object is the force of gravity,we say that the object is in "free fall".
The downward force acting on an object in free fall is Gravity.
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.
In free fall, the force of gravity alone causes an object to accelerate in the downward direction.
When the only force on an object is the force of gravity,we say that the object is in "free fall".
The downward force acting on an object in free fall is Gravity.
In free fall is should be gravity, obviously if an object is falling it should be gravity.
acceleration encountered by an object in free fall is 'g' or 9.8 m/s2
free fall
the object in free fall's acceleration depends on its mass