The sledgehammer is swung at a wall. Once the sledgehammer hits the wall it does not break through. How do the hammer in the wall act on each other?
The hammer exerts the stronger forest in the wall but in the opposite direction
The hammer in the wall exert forces on each other that are equal in magnitude but opposite directions
The hammer exerts a stronger force than the wall but in the same direction
The hammer in the wall exert forces on each other that are equal magnitude and in the same direction
The correct answer is: The hammer exerts a stronger force than the wall, but in the same direction.
The correct answer is: The hammer in the wall exerts forces on each other that are equal in magnitude but opposite directions.
In this scenario, the hammer and the wall exert forces on each other. When the sledgehammer hits the wall, the hammer exerts a force on the wall, while the wall exerts a force on the hammer. These forces are governed by Newton's third law of motion, which states that for every action, there is an equal and opposite reaction.
Therefore, the correct statement is: The hammer in the wall exerts forces on each other that are equal in magnitude but in opposite directions. So, the force exerted by the hammer on the wall is equal in magnitude and opposite in direction to the force exerted by the wall on the hammer. This interaction is what prevents the hammer from breaking through the wall.