yes it is true that bones can sbsorb more force without breaking concrete can
That depends upon how much concrete you have, but generally speaking, concrete structures are stronger than the human body.
your Thy Bone is srtonger than concret
I think you have the same HW as me False
yes
Depends on the concrete. There are different mixes to produce different strengths, for different uses. Concrete used for a sidewalk might have a crush strength of 3000 lbs per square inch. Concrete used for a bridge may be 10,000 lbs per quare inch.
The resistance force is the log. It trys to stop the wedge of the axe. The effort force of the swinging axe helps it break through the log, breaking through its resistance.
unknown answer
without science there is no force,gravity,inventions and foods
The application of force on object (without opposing forces) results in acceleration in the direction of the vector. In this case the unbalanced force to the left will accelerate the object to the right.
That depends upon how much concrete you have, but generally speaking, concrete structures are stronger than the human body.
A few things you could consider are cushions, "crumple zones" (like in cars, these are portions of the carrier that are designed to absorb some of the impact by breaking themselves instead of transferring the force to the cargo), or (if you're feeling fancy) retrorockets.
Tensile strength is the minimum force that the specimen withstands without suffering a failure. Breaking strength is that force which is required to break the specimen.
Concrete's capacity to withstand compressive forces is an illustration of compressive strength. A concrete structure, like a column or a beam, experiences pressure when it is subjected to a load. Concrete's capacity to withstand this pressure without breaking or deforming is measured by its compressive strength. For instance, structural concrete must have a compressive strength of at least 25 megapascals (MPa), which indicates that it can withstand significant compression without breaking. In determining the structural integrity and durability of various building materials, compressive strength is a crucial factor.
The loose earth has some give to it allowing the ground to absorb some of the energy from the impact. The concrete has no give and the full force is absorbed into your body.
No.
Yes, concrete has an elastic force. It can be made more elastic by adding chemicals to the mix.
concrete is excellent under a compressive force and terrible under a tensile (stretching)force. Rebar is added when concrete is subjected to tensile forces.
When the volleyball impacts on your hand, the volleyball's force will be absorbed.
The ability to stretch without breaking
it is the force that makes it skid when sudden breaking.
Depends on the concrete. There are different mixes to produce different strengths, for different uses. Concrete used for a sidewalk might have a crush strength of 3000 lbs per square inch. Concrete used for a bridge may be 10,000 lbs per quare inch.