Depends on how strong the metal is, how much of it there is, and how big the force is.
Strong metal, lots of it, only little force - nothing happens.
Strong metal, small part, little force - the metal will stretch and then spring back when the force is removed.
Strong metal, small part, more force - the metal will stretch permanently.
Strong metal, small part, even more force, the metal will stretch until it snaps.
etcetc
When force is applied to a metal, it deforms and changes shape. This demonstrates the property of ductility, which is the ability of a material to undergo plastic deformation without breaking.
Depends on how strong the metal is, how much of it there is, and how big the force is. Strong metal, lots of it, only little force - nothing happens. Strong metal, small part, little force - the metal will stretch and then spring back when the force is removed. Strong metal, small part, more force - the metal will stretch permanently. Strong metal, small part, even more force, the metal will stretch until it snaps. etcetc
Metal bends when a force is applied to it that exceeds its yield strength. The atoms in the metal lattice are able to slide past each other when this force is applied, allowing the metal to change shape without breaking.
Yes, the shape of a solid metal can be changed when a great force is applied, a property known as plasticity. When enough force is applied, the metal will deform and change shape. This is the basis for processes such as forging and metal forming in manufacturing.
When force is applied to a flat surface, it can result in the surface deforming or breaking depending on the magnitude of the force. The surface may also experience frictional forces depending on the material and the amount of force applied.
When force is applied to a metal, it deforms and changes shape. This demonstrates the property of ductility, which is the ability of a material to undergo plastic deformation without breaking.
Depends on how strong the metal is, how much of it there is, and how big the force is. Strong metal, lots of it, only little force - nothing happens. Strong metal, small part, little force - the metal will stretch and then spring back when the force is removed. Strong metal, small part, more force - the metal will stretch permanently. Strong metal, small part, even more force, the metal will stretch until it snaps. etcetc
When force is applied to a metal, it can undergo deformation, which may be elastic or plastic. In elastic deformation, the metal returns to its original shape once the force is removed, while in plastic deformation, the metal permanently changes shape. If the applied force exceeds the metal's yield strength, it may lead to fracture or failure. The behavior of the metal under force is influenced by factors such as its composition, temperature, and the rate of loading.
Metal bends when a force is applied to it that exceeds its yield strength. The atoms in the metal lattice are able to slide past each other when this force is applied, allowing the metal to change shape without breaking.
The object will not move!!!
it increases in direct proportion to the force applied
Surface Tension happens
Yes, the shape of a solid metal can be changed when a great force is applied, a property known as plasticity. When enough force is applied, the metal will deform and change shape. This is the basis for processes such as forging and metal forming in manufacturing.
The object is accelerated in the direction of the net (or resultant) force.
When force is applied to a flat surface, it can result in the surface deforming or breaking depending on the magnitude of the force. The surface may also experience frictional forces depending on the material and the amount of force applied.
When a force is applied to an object in the opposite direction of its motion, the object will slow down. The force will act as a decelerating force, causing the object to lose speed and eventually come to a stop if the force continues to be applied.
that depends on how it is placed, vertically or diagonally .