The different speeds are to make sure the graph pushes the agenda of the creator. All of them going the same speed would decrease the disparity between walking and driving.
It wouldn’t change that much actually. Modern cars are really aerodynamic and the comparatively high weight of electric cars emphasizes the rolling resistance in relation to the air resistance.
This Wikipedia page (https://de.wikipedia.org/wiki/Fahrwiderstand) has an example where 77% of energy goes to air resistance, 23% to rolling resistance - At a speed of 200kmh. Which means rolling resistance requires 5x more energy to overcome than air resistance at 50kmh. (77% -> 77 energy units -> multiply by (50/200)^2 = 1/16, as air resistance depends on speed squared -> 5 energy units, but rolling resistance is independent of speed so it doesn’t change (still 23 energy units))
The different speeds are to make sure the graph pushes the agenda of the creator. All of them going the same speed would decrease the disparity between walking and driving.
You got lies, damn lies and statistics.
And this is one of those.
It wouldn’t change that much actually. Modern cars are really aerodynamic and the comparatively high weight of electric cars emphasizes the rolling resistance in relation to the air resistance.
This Wikipedia page (https://de.wikipedia.org/wiki/Fahrwiderstand) has an example where 77% of energy goes to air resistance, 23% to rolling resistance - At a speed of 200kmh. Which means rolling resistance requires 5x more energy to overcome than air resistance at 50kmh. (77% -> 77 energy units -> multiply by (50/200)^2 = 1/16, as air resistance depends on speed squared -> 5 energy units, but rolling resistance is independent of speed so it doesn’t change (still 23 energy units))