There is the apple's weight (mass * gravity) but there is also the air resistance acting against the object's weight.
When holding the apple over your head, the main force acting on the apple is the force of gravity pulling it downwards, with the reaction force being the apple exerting an equal force upwards on your hand. When you drop the apple, the only force acting on it is still gravity pulling it downwards, but now there is no reaction force as the apple is falling freely.
its called gravity person
6 newtons to the left
Universal gravitation.....
Universal gravitation.....
Here are some good ones: apple picking adding numbers acting
The terms "gravitational force" and "force of gravity" are interchangeable and both refer to the same force exerted on objects due to gravity. When an apple is falling, the force of gravity (gravitational force) is indeed acting on it, causing it to accelerate towards the Earth.
The motion of an apple falling from a tree is an example of non-uniform motion. This is because the speed of the apple changes as it falls due to the acceleration of gravity acting on it.
The weight of the apple remains constant regardless of its location because weight is a measure of the force of gravity acting on an object, which is constant. However, the apple's mass remains the same.
the density of the apple is less than the density of the water, so gravity pulls the water down with more force than the apple causing the apple to be on top of the water
As its distance from the earths mass centre alters very little during the fall, the force between it and the earth essentially remains the same. During the fall the earth and the apple accelerate toward each other. acceleration = force / mass, so the earths acceleration is incredibly small and the distance moved also.