A boy holds an apple as shown. Why doesn’t gravity cause the apple to fall to the ground? (1 point) Responses 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 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 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 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 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 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 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 correct answer is: 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.
To explain why the apple doesn't fall, we need to understand the concept of forces. Gravity is a force that pulls objects towards the center of the Earth. When the boy holds the apple, his hand exerts an upward force on the apple to counteract the force of gravity.
In order for an object to stay in place or remain at rest, the forces acting on it must be balanced. This means that the upward force from the boy's hand must be equal in magnitude but opposite in direction to the downward force of gravity.
If the force of the boy's hand pushing up on the apple is greater than the force of gravity, the two forces are still balanced and the apple remains in place. However, if the force of the boy's hand is less than the force of gravity, the two forces are unbalanced, and the apple would fall to the ground.
Therefore, in this scenario, the force of the boy's hand pushing up on the apple with greater magnitude than the force of gravity allows the two forces to be balanced, preventing the apple from falling.
are you sure
I apologize for any confusion. Let's break down the options provided:
Option 1: 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.
Option 2: 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.
Option 3: 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.
Option 4: 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.
Based on these options, it appears that Option 1 is the most accurate response. When an object is held, the force exerted by the hand counteracts the force of gravity, creating a state of equilibrium where the forces are balanced. This is why the apple does not fall to the ground.
Therefore, the answer is: 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.