Final answer:
The relationship between velocity squared (V^2) and weight (W) can help determine the scenario confirmed when considering terminal velocity and air resistance.
Step-by-step explanation:
The relationship between velocity squared (V^2) and weight (W) in the context of falling coffee filters can help determine which scenario is confirmed when considering terminal velocity and air resistance. In this experiment, the time it takes for nested coffee filters to fall from the same height is measured. Since drag is constant and only mass varies, the terminal velocity can be found as a function of mass. By plotting the terminal velocity v versus mass and v² versus mass, we can determine which relationship is more linear.
If the relationship between velocity squared (V^2) and weight (W) is more linear when compared to the relationship between terminal velocity v and mass, it suggests that the drag force is proportional to the square of the velocity. This confirms the scenario of air resistance being a factor in determining terminal velocity.