a. Identify the mechanism the girl in Figure 3.1 uses. b. Identify the input force (effort) and the output force (load) of the mechanism. c. Is the mechanical advantage of the mechanism greater than one ( \( >1 \) equal to one \( (=1) \) or less than one \( (<1) \) ? Explain. d. By looking at the way the girl holds the oar, explain how she should hold the oar so that she will gain more mechanical advantage.

The mechanism likely being used by the girl is a lever, specifically a second-class lever where the load is between the effort and the fulcrum. This allows her to move a larger load with less effort by utilizing the length of the oar as the lever arm. In this scenario, the input force (effort) is the girl's muscular force applied to the oar, while the output force (load) is the resistance against the water, which the oar must overcome to propel the boat forward. The mechanical advantage of the mechanism is greater than one (\( >1 \)), as the lever allows the girl to apply a smaller force over a longer distance to lift or move a heavier load. This means she can move the boat effectively with less effort. To gain more mechanical advantage, the girl should grip the oar closer to the end away from the water. This increases the distance from the fulcrum (the point where the oar touches the water) to where she applies her effort, allowing her to exert greater influence over the load with the same amount of input force.