It is actually not speed that would be fatal for a human. The acceleration and the amount of "g" force exerted would be the cause of a person's death. I human being can withstand about 4-6 G forces.
I think it's 9 g's
Yes: The force acting down is constant (mass * g) The force acting up = velocity 2 * drag coefficient At chute opening, the velocity is at its maximum, so up force due to drag is at its maximum. (maximum tension) Drag force reducing with diminishing velocity, to landing terminal velocity (minimum tension)
1g? Permanently - it is what we experience all the time.
In physics g force means gravitation force
It is actually not speed that would be fatal for a human. The acceleration and the amount of "g" force exerted would be the cause of a person's death. I human being can withstand about 4-6 G forces.
As the mass of a human body increases, so does the g-force exhibited on the human body.
It had a maximum G-Force of 12. Enough to kill a human. Fighter Jet pilots usually don't experience anything near 12 G's.
5.0
There isn't really a maximum speed (except of course for the speed of light!) a human can survive. What would kill a human is the force generated by very fast acceleration (G force). I'm not sure of the maximum number of G's a human can withstand, but in a pressurized cockpit of say a fighter plane, a highly trained pilot might be able to get somewhere between 15-20 G's (15-20 times Earth's normal gravity), although once you get that high, the plane is going to have some trouble staying together as well.
I think it's 9 g's
probably around 3G - to keep it safe for most individuals
G-Force = positive 4.5g Maximum Velocity = 77kmph Hope this helps.
Yes: The force acting down is constant (mass * g) The force acting up = velocity 2 * drag coefficient At chute opening, the velocity is at its maximum, so up force due to drag is at its maximum. (maximum tension) Drag force reducing with diminishing velocity, to landing terminal velocity (minimum tension)
1g? Permanently - it is what we experience all the time.
It's hard to say, as I'm not even sure if it's even ever been measured. However, I'd predict the maximum positive G-force could be anywhere from 2G to 4G.
it is maximum at the poles