When a ball bounces, what action and reaction forces do the ball and the ground exert?(1 point)
Responses
The ball's force is stronger than that of the ground, and they go in the same direction.
The ball's force is stronger than that of the ground, and they go in the same direction.
The ball's force is stronger than that of the ground, and they go in opposite directions.
The ball's force is stronger than that of the ground, and they go in opposite directions.
The ball's force is the same as that of the ground and they go in the same direction.
The ball's force is the same as that of the ground and they go in the same direction.
A ball and the ground exert forces of the same magnitude, but in opposing directions.
A ball and the ground exert forces of the same magnitude, but in opposing directions.
The ball's force is the same as that of the ground and they go in opposite directions.
The correct answer is: A ball and the ground exert forces of the same magnitude, but in opposing directions.
The correct answer is: A ball and the ground exert forces of the same magnitude, but in opposing directions.
Explanation:
When a ball bounces, there is a force exerted by the ball on the ground, and an equal and opposite force exerted by the ground on the ball according to Newton's third law of motion. This is known as the action-reaction pair of forces.
The ball exerts a downward force on the ground due to its weight and the force with which it is pushed or dropped onto the ground. In response, the ground exerts an upward force on the ball, which causes the ball to bounce back up.
The forces exerted by the ball and the ground have the same magnitude because they are a pair of action-reaction forces. However, they act in opposite directions to each other - the ball exerts a downward force, while the ground exerts an upward force. This is what allows the ball to bounce back up.
Therefore, the correct answer is that the ball and the ground exert forces of the same magnitude, but in opposing directions.