The physics of flying through the air, or across water for that matter, are very different from rolling down the road, as I am sure you are well aware.
Yes, but the basic kinematic truths remain the same. Why are you ignoring this central point? Did you ever take a class that covered newtonian physics?
You're being obtuse at this point. Inertia and momentum are both functions of mass. As weight increases, inertia increases, and the energy required to overcome that inertia increases a like amount. As I said, this is a basic truth
regardless of medium. This is true in a boat, a plane, a car, a helicopter, a train, a ball rolling down the hill, moving your finger, running, walking, climbing a ladder, falling down the stairs... it doesn't matter. If it is being moved it is being or has been accelerated, inertia is being over overcome to do that acceleration, and the energy necessary to do this increases as inertia increases.
The GTI and the A4 were used because they are so close to being the same car in terms of engine and transmission. The additional power loss from the AWD drivetrain is not going to translate directly to an equivelant loss in efficiency loss, and it is a sophistic argument to suggest that it will. The drag coefficients are almost identical, at 0.31 and 0.32, but these only become significant contributors to load on a vehicle at highway speeds. For the purposes of this argument wheel base and track can be ignored. Since rolling resistance from tire width is a function of weight and not simply tire width, your argument here is poorly considered, as while the GTI's tires are 4% narrower, the biggest contributor to this particular issue is the 14% heavier A4 (friction calculations are ALSO a function of mass).
I am tired of you debating on the side of a fundamentally broken view of how physics works. Read this:
http://books.google.ca/books?id=kE9...=X&oi=book_result&resnum=5&ct=result#PPA26,M1
I quote (second paragraph, starting at line 6):
Because the force needed to accelerate a vehicle is purely a function of weight, weight reduction through improved design, acceptance of less space, or materials substitution is a critical factor in fuel economy, especially for the urban part of the cycle.
I could quote further. I won't. I'm sorry my linking you to the U.S. Department of Energy wasn't quite good enough for you, but if it will help, read that book I just linked to in its entirety. Follow the footnotes, it's all sourced to scientific journals and papers. If you wish to continue to disagree with me, you're free to do so, but if you're going to do it with 4 centuries of peer-reviewed Newtonian kinematics, perhaps you need to re-evaluate your position.
