When a ball bounces, what action and reaction forces do the ball and the ground exert?(1 point) Responses 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 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 stronger than 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.
When a ball bounces, the action and reaction forces exerted by the ball and the ground are as follows: A ball and the ground exert forces of the same magnitude, but in opposing directions. This is known as Newton's third law of motion, which states that for every action, there is an equal and opposite reaction.
To understand this concept, think about what happens when a ball hits the ground. The ball pushes against the ground with a certain force, and at the same time, the ground pushes back on the ball with an equal force in the opposite direction. These forces occur simultaneously and are a result of the interaction between the ball and the ground.
To determine the correct answer, it is important to understand that the forces involved are equal in magnitude but opposite in direction. So, option 3 is the correct answer: "A ball and the ground exert forces of the same magnitude, but in opposing directions."