Magnitude: Difference between revisions

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(Created page with "A ''magnitude'' is a quantity that represents a concrete distance of some kind. In rigid geometric algebra, a magnitude $$\mathbf z$$ is composed of two components, a scalar and an antiscalar, as follows: :$$\mathbf z = x\mathbf 1 + y {\large\unicode{x1d7d9}}$$ Magnitudes are homogeneous just like everything else in a projective geometric algebra. This means it has both a bulk and a weight, and it is unitized by making the magnitude of its weight one. ===...")
 
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* The [[geometric norm]] produces a magnitude that gives the perpendicular distance between an object and the origin. This is also half the distance that the origin is moved by an object used as an operator.
* The [[geometric norm]] produces a magnitude that gives the perpendicular distance between an object and the origin. This is also half the distance that the origin is moved by an object used as an operator.
* [[Euclidean distances]] between objects are expressed as magnitudes given by the sum of the [[bulk norms]] and [[weight norms]] of [[commutators]].
* [[Euclidean distances]] between objects are expressed as magnitudes given by the sum of the [[bulk norm]] and [[weight norm]] of expressions involving [[attitudes]].
* Exponentiating the magnitude $$d\mathbf 1 + \phi {\large\unicode{x1d7d9}}$$ produces a [[motor]] for which $$d/\phi$$ is the pitch of the screw transformation.
* Exponentiating the magnitude $$\delta\mathbf 1 + \phi {\large\unicode{x1d7d9}}$$ produces a [[motor]] for which $$\delta/\phi$$ is the pitch of the screw transformation.


== See Also ==
== See Also ==

Revision as of 05:07, 1 August 2023

A magnitude is a quantity that represents a concrete distance of some kind. In rigid geometric algebra, a magnitude $$\mathbf z$$ is composed of two components, a scalar and an antiscalar, as follows:

$$\mathbf z = x\mathbf 1 + y {\large\unicode{x1d7d9}}$$

Magnitudes are homogeneous just like everything else in a projective geometric algebra. This means it has both a bulk and a weight, and it is unitized by making the magnitude of its weight one.

Examples

  • The geometric norm produces a magnitude that gives the perpendicular distance between an object and the origin. This is also half the distance that the origin is moved by an object used as an operator.
  • Euclidean distances between objects are expressed as magnitudes given by the sum of the bulk norm and weight norm of expressions involving attitudes.
  • Exponentiating the magnitude $$\delta\mathbf 1 + \phi {\large\unicode{x1d7d9}}$$ produces a motor for which $$\delta/\phi$$ is the pitch of the screw transformation.

See Also