A ball bounces on the ground. How do the ball and the ground act on each other?(1 point)
Responses
The ball exerts a stronger force than the ground but in the same direction.
The ball exerts a stronger force than the ground and in the opposite direction.
The ball and the ground exert forces on each other with equal magnitude but in opposite directions.
The ball and the ground exert forces on each other with equal magnitude and in the same direction.
The ball and the ground exert forces on each other with equal magnitude but in opposite directions.
The ball and the ground exert forces on each other with equal magnitude but in opposite directions.
The correct answer is: The ball and the ground exert forces on each other with equal magnitude but in opposite directions.
When a ball bounces on the ground, it experiences a force exerted by the ground, and in return, it exerts an equal and opposite force on the ground. This concept is explained by Newton's third law of motion, which states that every action has an equal and opposite reaction.
To understand this, you can imagine that when the ball collides with the ground, it deforms, and the ground pushes back on the ball. This push from the ground is what causes the ball to bounce back up. At the same time, the ball applies an equal and opposite force on the ground, creating a reaction that allows the ball to bounce.
So, the ball and the ground exert forces on each other of equal magnitude but in opposite directions.