The Exciting World of Forces in Motion

Please help!!!

Which of the following demonstrates Newton’s third law of motion when a ball hits a bat?

Answer:

The force of the ball pushing against the bat is equal to the force of the bat pushing against the ball.

Newton’s third law of motion states that for every action, there is an equal and opposite reaction. This means that when a ball hits a bat, the force of the ball pushing against the bat is equal to the force of the bat pushing against the ball. Even though the ball may fly farther due to this force, the key point is that the forces are equal and oppositely directed.

Force, in physics, is defined as the push or pull on an object that can change its velocity. When objects interact, they exert forces on each other, resulting in pushes and pulls that can be described as stretching or squeezing. In the case of a ball hitting a bat, the force of the ball and the force of the bat are equal in magnitude but opposite in direction, following Newton’s third law of motion.

It is important to understand the concept of force and how it relates to motion and interactions between objects. By grasping Newton’s laws of motion, we can better appreciate the fundamental principles that govern the physical world around us.

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