Now if we assume the victims tied up are frictionless orbs, and the train is also a frictionless orb, and the two of them are travelling in a frictionless void than I reckon we could kill a few more.
But then would they die if they don’t slow the train down? The train would necessarily have to impart some energy in order to effect a change in their bodies.
I mean if you’re going fast enough with a pointy train, you could chop up people pretty easy. You just need to make sure that each person is a tire width apart to make sure the wheels don’t lose traction. Assuming a person is roughly half a metre across and a tire is 75cm in diameter, we get 1.25m per person, so a track of 1250km for a million people. Not very long at all.
I feel like running over all those bodies would make the train come to a stop way before it ran over a million people.
Now I sit back and wait for some morbid soul who is better at math and physics than me to figure out the answer.
Now if we assume the victims tied up are frictionless orbs, and the train is also a frictionless orb, and the two of them are travelling in a frictionless void than I reckon we could kill a few more.
But then would they die if they don’t slow the train down? The train would necessarily have to impart some energy in order to effect a change in their bodies.
Maybe the train is an unstoppable force.
Like the GTA train
deleted by creator
I mean if you’re going fast enough with a pointy train, you could chop up people pretty easy. You just need to make sure that each person is a tire width apart to make sure the wheels don’t lose traction. Assuming a person is roughly half a metre across and a tire is 75cm in diameter, we get 1.25m per person, so a track of 1250km for a million people. Not very long at all.