Twist (mathematics)

In mathematics (differential geometry) twist is the rate of rotation of a smooth ribbon around the space curve X=X(s), where s is the arc-length of X and U=U(s) a unit vector perpendicular at each point to X. Since the ribbon (X,U) has edges X and X'=X+\varepsilon U the twist (or total twist number) Tw measures the average winding of the curve X' around and along the curve X. According to Love (1944) twist is defined by

Tw={\dfrac {1}{2\pi }}\int \left({\dfrac {dU}{ds}}\times U\right)\cdot {\dfrac {dX}{ds}}ds\;,

where dX/ds is the unit tangent vector to X. The total twist number Tw can be decomposed (Moffatt & Ricca 1992) into normalized total torsion T and intrinsic twist N, that is

Tw={\dfrac {1}{2\pi }}\int \tau \;ds+{\dfrac {\left[\Theta \right]_{X}}{2\pi }}=T+N\;,

where \tau =\tau (s) is the torsion of the space curve X, and \left[\Theta \right]_{X} denotes the total rotation angle of U along X. The total twist number Tw depends on the choice of the vector field U (Banchoff & White 1975).

When the ribbon is deformed so as to pass through an inflectional state (i.e. X has a point of inflection) torsion becomes singular, but its singularity is integrable (Moffatt & Ricca 1992) and Tw remains continuous. This behavior has many important consequences for energy considerations in many fields of science.

Together with the writhe Wr of X, twist is a geometric quantity that plays an important role in the application of the Călugăreanu–White–Fuller formula Lk=Wr+Tw in topological fluid dynamics (for its close relation to kinetic and magnetic helicity of a vector field), physical knot theory, and structural complexity analysis.

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