Final answer:
The question deals with the physics of a soccer ball's motion when a defensive player handles it to prevent a goal and the subsequent whistle and goal event. However, the question is more focused on the physics principles behind the motion of the ball and how it is graphically represented, as well as comparisons to ice hockey puck motion.
Step-by-step explanation:
When a defensive player handles the ball in an attempt to prevent a goal, and the referee blows his whistle followed by the ball crossing the goal line, it is a scenario that relates to soccer rules but can involve physics when discussing the movement and interaction of players with the ball. However, based on the reference information provided, which involves a soccer player and goalie passing the ball and a graphical representation of displacement over time, and other scenarios involving sports and physics principles, the question seems to be more focused on the physics behind the motion of a soccer ball.
In terms of the reference information about the ice hockey scenarios, they are related due to the principles of motion, such as velocity, displacement, and forces involved. For example, the displacement over time graph in the scenario where a soccer player kicks the ball to the goalie and it is returned would be a straight line out and a straight line back, showing a change in displacement over time, similar to the graph of a hockey puck being passed on the ice. However, due to the presence of air resistance and friction on the soccer field, which are not present on frictionless ice, the exact characteristics of the graphs might differ slightly.