It moves with a constant acceleration downwards. This means that its velocity is increasing at a constant rate.
velocity increases
the object's falling speed
massvolumedensitycolordiametercostweightshapetotal energy (potential + kinetic)
It will decrease if the object moves upward; decrease if the object moves downward.
They both fall at the same rate. This is because they are both only acted upon by one force in the vacuum- gravitational acceleration. The mass, size or shape of the object do not influence the object's motion in a vacuum.
It is a projectile falling with an acceleration equal to that of free fall. (an object falling in a vacuum at the earth's surface)
the object's falling speed
massvolumedensitycolordiametercostweightshapetotal energy (potential + kinetic)
It accelerates at a higher rate
It will decrease if the object moves upward; decrease if the object moves downward.
In air, yes. In vacuum, no.
it will go straight down because of gravity
They both fall at the same rate. This is because they are both only acted upon by one force in the vacuum- gravitational acceleration. The mass, size or shape of the object do not influence the object's motion in a vacuum.
The equation for speed or fast is v=at and the distance is d=1/2 at2 the acceleration is 'a'.
It is a projectile falling with an acceleration equal to that of free fall. (an object falling in a vacuum at the earth's surface)
for how fast an object falls, use v=gt. g stands for the acceleration of gravity- 9.8 m/s2 v stands for speed t stands for time for how far that object falls, use d=0.5gt2 d being distance
Acceleration is constant.Speed increases linearly with time.Distance increases exponentially with time.
That depends on the situation. If the object is moving freely in a vacuum, the speed stays the same. If an object is accelerating, the speed change depends in part, on the mass of the object.