I dunno, maybe 100x was an exaggeration, but not by much! Take a look at this transmission from 2007. They haven't gotten simpler. Lot's of cars are sporting 10-speeds these days.
The number of speeds is a function of the number of planetary gearsets. They’re just connected in series. More speeds isn’t more complex, it’s only a larger part count. By the time the transmission is computer controlled and has two speeds it’s as complex as it’s going to be.
Modern ICE are also extremely complex. Turbo systems, sensors, air management, heat management, the list goes on.
So yeah, a modern transmission is complex but a modern ICE isn’t simple. By comparison they’re very similar in terms of complexity, the ICE possibly being even more complex.
>By the time the transmission is computer controlled and has two speeds it’s as complex as it’s going to be.
I don't disagree with your posts greater point, but I disagree with this.
There is an endless amount of variable complexity in the engineering behind friction materials, actuation styles, the control systems within the computer control, the material selections.. the list goes on.
I mean entire branches of metallurgy were more or less founded in the pursuit of finding stronger alloys for gearbox work. entire branches of metrology were developed for the sake of gearbox failure analysis -- there is a lot of complexity.
It's stupid to get into a pissing contest between engines and transmissions, they're both astoundingly complex.
I don’t buy that transmissions are somehow unique or even exceptional in motivating improvements in design and materials science. The ICE will benefit from the same improvements and has even more opportunities to utilize those improvements.
Modern ICE are also extremely complex. Turbo systems, sensors, air management, heat management, the list goes on.
So yeah, a modern transmission is complex but a modern ICE isn’t simple. By comparison they’re very similar in terms of complexity, the ICE possibly being even more complex.