A man is holding a apple in his hand.
Why doesn't gravity cause the apple to fall to the ground?
(1 point)
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 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 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 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 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 why the apple doesn't fall to the ground, we need to consider the concept of forces. In this case, there are two primary forces acting on the apple: the force of gravity and the force exerted by the man's hand.
Gravity is a force that pulls objects toward the center of the Earth. It acts on all objects, no matter their size or mass. In this situation, gravity is pulling the apple downward.
On the other hand, the man's hand is exerting an upward force on the apple. This force is called the normal force and it is the force exerted by a surface to support the weight of an object resting on it. In this case, the man's hand is providing the necessary support to keep the apple from falling.
For the apple to remain stationary in the man's hand, the force exerted by his hand must be equal in magnitude and opposite in direction to the force of gravity. This balance of forces is what prevents the apple from falling to the ground.
So, 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. The two forces are balanced, so the apple doesn't fall.