Pluto: Downforce left the chat ---------------------------------------------------------------------- Unfortunately I had to make this edit Because for all the people that don't know about the game that is used here (BEAMNG) this game doesn't have air density physics it has aerodynamics physics but not air density I do understand that downforce is made by air density and air density is made by gravity So therefore if there's low gravity there is low downforce in *real life* But that's no the case for beamng So please stop telling me that and saying I'm dumb
@@imparanoiiidu both wrong (or right actually...) Downforce is what whe call the negative lift force So, positive lift could be called upforce. Y'all can drink drink your Tea knowing you were both right
@Cherry Blossom well people would basically be flying in the air so there’s a lot of regulations that need to be added since the boundaries need to include how far up you can go from the ground. And I’d be hard to aim at low gravity so the hoop itself not only need to be moved but it probably can’t be a hoop since I’d be too small a target at the distances people would be throwing from. Also the point system needs to be changed since half court shots would be way more common and I’d be too easy to just constantly throw the ball across the entire court over and over until their time runs out
Physics lesson: The amount of gravity does not increase the amount of downforce, air density does that. Providing the air density is unaffected, the car is generating the same amount of downforce in all of these clips.
@@Owlbolt It would have lower traction due to the car weighing less but the loss of traction would be linear and not nearly at the rate shown. Especially at highspeed when the aero is producing the majority of the grip.
Even an F1? Because they're solid, their suspension has to manage downforce + bumps, on extremely fast cars. So probably it would still (barely?) resist.
@@ambergris5705 The gravity on the sun would quite literally instantly crush anything. Its one of the reasons fusion between hydrogen atoms occurs. So no it would not resist.
Max velocity to negotiate a turn safely as a function of radius of turn is given as : v = sqrt(urg) where v = velocity u = coefficient of kinetic friction g = acceleration due to gravity r = radius of turn