Ben and Peter are playing horseshoes. Ben takes the first turn, and his horseshoe lands three-fourths of the way to the target. Peter takes the next turn, and his horseshoe lands past the target. Which statement best explains the results?(1 point) Responses The horseshoes have the same mass, but Peter threw with more force than Peter. The horseshoes have the same mass, but Peter threw with more force than Peter. Peter used a horseshoe with more mass and threw with the same force as Ben. Peter used a horseshoe with more mass and threw with the same force as Ben. Peter used a horseshoe with more mass and threw with less force than Ben. Peter used a horseshoe with more mass and threw with less force than Ben. The horseshoes have the same mass, but Peter threw with less force than Ben. The horseshoes have the same mass, but Peter threw with less force than Ben.
The correct response is: Peter used a horseshoe with more mass and threw with more force than Ben.
The statement that best explains the results is: Peter used a horseshoe with more mass and threw with less force than Ben.
To explain the results, we need to consider the factors that can affect the distance a horseshoe travels: mass and force.
In this scenario, we know that the horseshoes have the same mass. Therefore, the difference in distance traveled can be attributed to the force applied by Ben and Peter when they threw their horseshoes.
Given that Ben's horseshoe landed three-fourths of the way to the target, we can infer that he applied a moderate amount of force. On the other hand, Peter's horseshoe landed past the target, indicating that he applied more force than Ben.
Therefore, the statement that best explains the results is: "The horseshoes have the same mass, but Peter threw with more force than Ben."