A femur bone can withstand roughly 4000 N of force.
The femur, the strongest bone in the human body, can withstand compressive forces of around 1,700 to 2,500 pounds-force per square inch (psi) before breaking.
It depends on the bone. The femur (thigh bone) is much stringer than other bones.
The femur is the strongest and thickest bone in the body. It can take about 600 LBS of vertical force before it breaks. That pretty much means that if you set it up so it was horizontal, with a space in between the things holding it up, and put 600 pounds on it, it would snap. That's strong.
This depends on the bone; to break a finger generally doesn't take much force, but your femur or your thigh bone is harder than cement!
Not even close. The femur is much larger.
Bones can withstand a considerable amount of pressure. On average, bones can withstand compressive forces of around 180 Mpa (megapascals) to 230 Mpa. However, this can vary depending on the type of bone and the direction of the force applied.
The average weight of an adult male femur bone is approximately 1.67 lbs (0.75 kg).
550 lbs. of pressure
It would depend on the rivet and the type of force applied.
An eggshell can withstand a lot more pressure than people think. It can withstand the force of 6.2 pounds or 25 Newtons.
As much as is available. That of course does not mean the paper can withstand it.
I've broken my fibula before, and it didn't take much. i was playing soccer and collided with another player. Her shin bone hit the side of my leg (fibula) with considerable force. I never would have thought getting hit like that could break a bone, but it did.