noun the action of twisting or the state of being twisted, especially of one end of an object relative to the other
In mathematics, torsion can refer to a specific type of curvature in differential geometry.
In engineering, torsion is a key concept in the design of structures and machines to ensure they can withstand twisting forces.
In physics, torsion refers to the twisting of an object due to an applied torque.
In biology, torsion can refer to the twisting or rotation of an organ or organism during development.
In materials science, torsion testing is used to determine the mechanical properties of materials under torsional stress.
In engineering, torsion is a key concept in the design of structures and machines, especially in relation to how materials respond to twisting forces.
Architects may consider torsion when designing buildings to ensure structural stability and resistance to torsional forces, such as wind loads.
Physicists study torsion as a fundamental concept in mechanics, particularly in relation to the behavior of materials under twisting or shearing forces.
Torsion is a critical factor in mechanical engineering, especially in the design of rotating machinery and shafts where torsional stresses need to be carefully considered.
Mathematicians may study torsion in the context of differential geometry, where it relates to the twisting of geometric objects in curved spaces.