Structures are able to withstand outside forces by having sufficient resistance and capacity so that they can respind with equal magnitude of the forces acting over them.
The ability of string to withstand the tension force is called tensile strength.
The amount of force an ordinary glass can withstand depends on it's thickness. A 1/4-inch thick piece can withstand approximately 292 lb per square foot.
"muscles"
Yes. Different materials and different surface structures affect the frictional force.
Torsion strength measures the largest torsion force the material can withstand and still spring back into its original shape.
Gravity.
Build them out of materials and to designs specified to withstand tornado force winds.
A femur bone can withstand roughly 4000 N of force.
It depends on the strength of the tornado. For example, all but the weakest structures will stand up to an EF0 tornado. At the other end, virtually nothing can with stand the full force of an EF5 tornado. Some structures that can withstand such a storm include reactor cores in nuclear power plants, rooms built into some buildings to protect from tornadoes, and most underground structures.
engineered structures are the structures which can withstand natural disasters such as earthquakes etc.
The primary destructive force in a tornado is wind. The intensity varies, but the wind in a strong enough tornado can easily carry more force than most structures can withstand. Some pieces of destroyed structures can then turn into high-speed debris, which adds to the destruction.
by having a strong foundation and cellers
The ability of string to withstand the tension force is called tensile strength.
Eggs can withstand more force from the pointed end because it has an arc shape
My house could never withstand the gale force of a hurricane!
The amount of force an ordinary glass can withstand depends on it's thickness. A 1/4-inch thick piece can withstand approximately 292 lb per square foot.
It would depend on the rivet and the type of force applied.