Why doesn’t gravity cause the apple to fall to the ground?
The force of his hand pushes up on the apple with equal magnitude to the force of gravity, which pulls down on the apple. The two forces are unbalanced, so the apple doesn't fall.
The force of his hand pushes up on the apple with greater magnitude than the force of gravity, which pulls down on the apple. The two forces are unbalanced, so the apple doesn't fall.
The force of his hand pushes up on the apple with greater magnitude than the force of gravity, which pulls down on the apple. The two forces are balanced, so the apple doesn't fall.
The force of his hand pushes up on the apple with equal magnitude to the force of gravity, which pulls down on the apple. The two forces are balanced, so the apple doesn't fall.
The correct answer is: The force of his hand pushes up on the apple with equal magnitude to the force of gravity, which pulls down on the apple. The two forces are balanced, so the apple doesn't fall.
The correct answer is:
"The force of his hand pushes up on the apple with equal magnitude to the force of gravity, which pulls down on the apple. The two forces are balanced, so the apple doesn't fall."
The correct answer is:
The force of his hand pushes up on the apple with equal magnitude to the force of gravity, which pulls down on the apple. The two forces are balanced, so the apple doesn't fall.
To understand this concept, we need to look at Newton's Third Law of Motion, which states that for every action, there is an equal and opposite reaction. When we hold an apple in our hand, we exert an upward force on the apple. This upward force is equal in magnitude to the force of gravity pulling the apple downward. As a result, the two forces cancel each other out, creating a state of equilibrium.
In other words, the force of gravity tries to pull the apple down, while the force from our hand pushes it up. Since these two forces are balanced, the apple remains stationary and doesn't fall to the ground. If one force were greater than the other, the apple would either fall or rise depending on the direction of the net force.
So, in the given options, the correct answer is that the force of his hand pushes up on the apple with equal magnitude to the force of gravity, which pulls down on the apple, resulting in balanced forces and no fall.