Plane

From Conformal Geometric Algebra
Revision as of 03:14, 6 August 2023 by Eric Lengyel (talk | contribs) (Created page with "400px|thumb|right|'''Figure 1.''' The various properties of a plane. In the 5D conformal geometric algebra $$\mathcal G_{4,1}$$, a ''plane'' $$\mathbf g$$ is a quadrivector having the general form :$$\mathbf g = g_x \mathbf e_{4235} + g_y \mathbf e_{4315} + g_z \mathbf e_{4125} + g_w \mathbf e_{3215}$$ . A plane can be viewed as an infinitely large sphere containing the point at infinity. A plane in conformal geometric algebra is the precise...")
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to navigation Jump to search
Figure 1. The various properties of a plane.

In the 5D conformal geometric algebra $$\mathcal G_{4,1}$$, a plane $$\mathbf g$$ is a quadrivector having the general form

$$\mathbf g = g_x \mathbf e_{4235} + g_y \mathbf e_{4315} + g_z \mathbf e_{4125} + g_w \mathbf e_{3215}$$ .

A plane can be viewed as an infinitely large sphere containing the point at infinity. A plane in conformal geometric algebra is the precise analog of a plane in rigid geometric algebra, with the only difference being that the representation of a plane in the conformal model contains an additional factor of $$\mathbf e_5$$ in each term.

See Also