I drive a small automatic car. For the most part, it struggles a bit with steep uphills, and picks up speed when going downhill. That’s to be expected.
But then I noticed some downhills actually slow it down. I’ve noticed during a two-hour motorway trip I often do to visit family, there are some specific downhills, not all, just some, where my car always slows down and I have no idea why.
Ideas?
I’ve always assumed it’s something in the engine. But I also wonder if it’s some sort of friction based math? I have heard most cars are most fuel efficient at 55mph or so. My town has a large hill which my car can “coast” down with no gas required. However, like you, it stops increasing its speed around 55mph. It doesn’t seem to go any faster without me stepping on the gas. I don’t notice anything different about the car. It just seems to stop accelerating.
And if I hit the gas, it seems to re-settle back to 55mph.
I sometimes wonder if fuel efficiency being at 55mph is tied to friction of tires on asphalt. And maybe even on a steep hill, typical cars just cant overcome the kinetic friction to continue speeding up. Obviously the steepness of the hill matters, but roads have pretty stringent rules about grades. So we have an upper bound of what’s “reasonable” based on whatever the steepest allowable grade is.
I’ve also had this question. I’d love to know the answer!
It’s more to do with gearing and wind resistance.
Wind resistance increases dramatically as you go faster, (coefficient * frontal area) squared.
The rolling resistance from your tires is trivial in comparison.
This is a much better worded description of my question, and what I also wondered as well. Thanks for the comment!