Jeeps are not a go fast vehicle… there’s a thing called death wobble.
Death wobble is truly terrifying. Seriously do not let a new driver behind the wheel of anything with a solid front axle.
My 2001 Landcruiser with over 1,000,000 kms on the clock had a solid front axle and never did anything like a death wobble. For that matter, nor did our ‘96 Jeep Grand Cherokee. Maybe the longer wheelbase helped
Mostly happens when bushings are worn out
I’m thinking entirely too hard for a meme about the aerodynamics of a pokemon, but there’s no way that a literal Bulbasaur can beat an actual car, right?
Well to win, the jeep would have to be running, so most would be disqualified before the match even starts. If the ref is feeling nice they can allow up to 3 attempts to start the jeep.
What if Bulbasaur was wearing heelys?
It would be too cool to exist
It’s not clear if they properly matched the Reynolds numbers and other similarity parameters to properly make this comparison.
to be fair, the jeep is a car, and not a particularly aerodynamic one, and one that can go much much faster than a pokemon ever could conceive of so.
i’m no fan of jeeps, but no one’s buying them for speed
Tell that to the people driving the dirt road outside my neighborhood.
You’re understanding how fast that road can be driven by a vehicle made to go fast on dirt roads!
I don’t often see Jeep Wranglers, but they’re invariably driven by hairdressers and gay bar owners in my country
That’s pretty weird honestly
“Hey, barkeep! Can you make me a Bulbasour neat? Thanks!”
For aerodynamics, aren’t most cars are facing the wrong way?
The ideal is something like a reverse wedge, if I remember correctly
Whoa, that low-pressure butt area can such the poop right out of that monster.
you mean to tell me a large vehicle is less aerodynamic than a small animal that doesnt exist?
fascinating.
Well the shape exists, and I don’t think the size matters in aerodynamics? I’m not sure.
the size doesnt matter for aerodynamics, generally, but it matters for physics.
Drag is a square or cube scaling, i forget which, so at higher speeds it increases disproportionately.
A larger object has more air to move out of the way, which means more drag. It’s more capable of moving that air with it’s increased volume. But then you also start running into volume to surface area scaling issues. Elephants are really slow for a reason, and it’s the same reason small animals are comparatively fast.
