Question

To determine the order of average velocity from greatest to least based on the information that the mass of all bicycles and riders is equal, we need to analyze the possible implications of this condition on velocity.

In physics, average velocity can be influenced by various factors like the force applied, friction, aerodynamics, and the distance covered over time. Since the mass is constant across the bicycles and riders, we can make some assumptions. Generally, if the mass is equal, the object that applies the greatest net force (through pedaling effort or design optimization) will achieve the highest average velocity.

However, without additional context from the graph, it's impossible to accurately determine the average velocities of A, B, C, and D. Typically, comparisons among average velocities would depend on factors such as the design of the bicycle (aerodynamics, gear ratios), rider efficiency, and terrain.

If you could provide more information from the graph or specific numbers or indicators being shown regarding speed or effort, I would be able to assist you further in assessing the order of average velocities.