A boy holds an apple as shown.%0D%0A%0D%0A%0D%0A%0D%0A %0D%0AWhy doesn’t gravity cause the apple to fall to the ground?%0D%0A%0D%0A(1 point)%0D%0AResponses%0D%0A%0D%0AThe 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.%0D%0AThe 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.%0D%0A%0D%0AThe 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.%0D%0AThe 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.%0D%0A%0D%0AThe 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.%0D%0AThe 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.%0D%0A%0D%0AThe 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 correct response 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 to the question 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."
Explanation:
Gravity is a force that pulls objects towards each other. In the case of the apple, gravity pulls it towards the center of the Earth. However, the boy is holding the apple in his hand, and his hand exerts an upward force on the apple. This upward force from the boy's hand counteracts the force of gravity, creating a balanced situation.
When the two forces are balanced, the apple remains stationary in mid-air. This is because the upward force from the boy's hand cancels out the downward force of gravity. If the upward force from the boy's hand were greater than the force of gravity, the apple would accelerate upwards. On the other hand, if the force of gravity were greater than the upward force from the boy's hand, the apple would accelerate downwards. But in this scenario, the forces are equal and opposite, resulting in a balanced situation where the apple doesn't fall.
Understanding the concept of balanced forces and how they affect the motion of objects is important in explaining why the apple remains in mid-air.