This is compression. Compression is one of the 4 internal forces acting on a structure. Squeezing a structure implies that it is compression.
Compression forces crush a material by squeezing it together.
Yes, it is true that a magnet is an object that can exert force on another material. However, it will only exert that force if it is made out of the correct material. Items made of iron are the most common magnetic objects.
The main difference, I would think, is the application of force. Squashing seems more to be the act of applying force to an object which is against an apparently unmoving object, where squeezing is an act that requires force from all sides (either 2-dimensionally or three).
There's no such thing as the "force of an object". The gravitational force of attraction between two objects depends on both of their "masses". Mass is the amount of material stuff an object is made of.
No, it actually depends on the material and mass.
Compression forces crush a material by squeezing it together.
Yes, it is true that a magnet is an object that can exert force on another material. However, it will only exert that force if it is made out of the correct material. Items made of iron are the most common magnetic objects.
The main difference, I would think, is the application of force. Squashing seems more to be the act of applying force to an object which is against an apparently unmoving object, where squeezing is an act that requires force from all sides (either 2-dimensionally or three).
There's no such thing as the "force of an object". The gravitational force of attraction between two objects depends on both of their "masses". Mass is the amount of material stuff an object is made of.
A crusher has huge impact on the objects it is crushing though the exact force will depend on the size of the object and crusher and the type of crusher. They are usually used to crush rocks.
because there is a magnetic field round an object
Anything magnetic and a metal object.
It will USUALLY pull the object backwards, in relation to the direction of the motion. This assumes that the material with which it has friction, moves slower than the object you are considering. However, if you put material on a conveyor belt, the force of friction, of the object with the conveyor belt, will pull it FORWARD until the object has the same speed as the conveyor belt.
It will USUALLY pull the object backwards, in relation to the direction of the motion. This assumes that the material with which it has friction, moves slower than the object you are considering. However, if you put material on a conveyor belt, the force of friction, of the object with the conveyor belt, will pull it FORWARD until the object has the same speed as the conveyor belt.
Compression
More then possible! It is so by definition. Mass is the "amount" of material in an object; weight is the force the object exerts under the influence of gravity.
it isn't. Assuming both keys are made of the same material, common steel will crush under a force of 95,000 psi (pounds per square inch) and it will shear under a force of 44,000 psi. It is only the depth of material that determines whether it will resist enough force to keep from shearing. if the face of the rectangle and the square material are the same then they will resist the same amount of applied force.