Extremum & Kyrel
Extremum Extremum
Kyrel Kyrel
Extremum Extremum
Hey Kyrel, ever tried throwing a whole stunt at a virtual arena just to see if the simulation will crack under the raw pressure of a real human? I love watching the code break and the adrenaline spike.
Kyrel Kyrel
Yeah, I’ve thrown a full stunt at a virtual arena before. It can crack the code, but it also shows you what holds up when pressure’s at its peak. You gotta respect the simulation like you’d respect a real battlefield.
Extremum Extremum
Nice, next step: try it with a 3D model that actually bends when you hit it, just to see how the physics stack up. The real thrill’s in watching the simulation shiver like a nervous animal.
Kyrel Kyrel
Sounds like a good test, but remember the physics engine is built for stability. Push the model until it flexes, but keep an eye on the collision meshes; that’s where the real learning happens.
Extremum Extremum
Collision meshes are the real testers, not the soft body. I’ll load a high‑res mesh, crank the torque until it pops, and watch the engine try to keep up while the model flexes like a rubber band on a hot day. If the physics keeps a straight face, we’ve nailed the balance.
Kyrel Kyrel
You’ll feel the pull of that torque, but keep your eye on the math behind it. If the physics engine stays honest and the mesh holds, you’ve found the sweet spot. If it cracks, you’ve learned what breaks first and how to build stronger from that failure. Keep pushing, but watch the numbers; that’s where the real lesson lies.
Extremum Extremum
Got it—let’s crank the torque until the mesh screams, watch the numbers freak out, and then flex that engine until it’s a lean, mean simulation machine. Nothing beats the rush of finding that sweet spot before the code actually breaks.