When a ball bounces, what action and reaction forces do the ball and the ground exert?
A ball and the ground exert forces of the same magnitude, but in opposing directions.
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.
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The correct answer is: The ball's force is stronger than that of the ground, and they go in opposite directions.
When a ball bounces, the ball and the ground exert forces of the same magnitude but in opposite directions. This is according to Newton's third law of motion, which states that every action has an equal and opposite reaction. The ball exerts a downward force on the ground, and the ground exerts an upward force on the ball. This upward force from the ground causes the ball to bounce back up into the air.
To answer this question, let's break it down and think about the forces involved in a bouncing ball. When a ball bounces, there are typically two forces at play: the action force and the reaction force. The action force is the force exerted by the ball onto the ground, and the reaction force is the force exerted by the ground back onto the ball.
When the ball hits the ground, it applies a force downward onto the ground. According to Newton's third law of motion, for every action, there is an equal and opposite reaction. So, as the ball applies a downward force onto the ground, the ground exerts an equal and opposite force upward onto the ball.
Therefore, the ball and the ground exert forces of the same magnitude, but in opposite directions. This means that the ball exerts a force downward and the ground exerts a force upward, both with the same amount of strength. So, the correct answer is: "The ball's force is the same as that of the ground and they go in opposite directions."