usually a lot of pressure but it depends on the bone. Example: It takes 12-16 pounds of pressure to break a knee.
The answer will depend on the quality of the glass and how it is strengthened.
A LOT more than we think. a human can accelerate faster than a race horse and lift over 1000 pounds when our lives are at risk.
That depends on how big the sheet of glass is.
Bone has a Young's modulus of about 18 x 109 Pa. Under compression, it can withstand a stress of about 160 x 106 Pa before breaking. Assume that the femur is 0.5 m long and calculate the amount of compression this bone can withstand without breaking. aB = Y EB = Y (deltaL / Lo) deltaL = (aB / Y) Lo here aB = 160 × 106 Pa; Y = 18 × 109 Pa deltaL = (160 × 106 Pa / 18 × 109 Pa) 0.5 m = 4.3 × 10-3 m = 4.3 mm
The pressure increases. Hopefully, the container is strong enough to withstand the increased pressure. If there is a weakness in the container, gas will escape as a leak.
A femur bone can withstand roughly 4000 N of force.
An eggshell can withstand a lot more pressure than people think. It can withstand the force of 6.2 pounds or 25 Newtons.
It depends on the bone. The femur (thigh bone) is much stringer than other bones.
it takes 76 lbs of pressure to collapse/crush one's windpipe
Compact Bone
A Century Bob is a punching bag that looks like a person for realism. The Century Bob is built to withstand the pressure of 500 to 1000 pounds from the kicker.
The answer will depend on the quality of the glass and how it is strengthened.
275
Because the blood flowing through them is at a much higher pressure, therefore they need to be thicker to withstand more pressure.
Compact bones, which are dense, are bones adapted to withstand stresses. Compact bones are also referred to as cortical bone.
The gold malleability can be measured by how much pressure it can withstand without breaking.
Spongy bone