logo

General Definitions of Lines, Planes, and Spheres 📂Geometry

General Definitions of Lines, Planes, and Spheres

Definition 1

Let’s assume that a vector space $X$ is given.

  1. The set of points satisfying the following equation $L \subset X$ or $\alpha (t)$ itself is defined as a Line that passes through point $\mathbf{x}_{0} \in X$ and is parallel to vector $\mathbf{v} \ne 0$. $$ \alpha (t) = \mathbf{x}_{0} + t \mathbf{v} \qquad , t \in \mathbb{R} $$
  2. The set of points satisfying the following equation $P \subset X$ is defined as a Plane that passes through point $\mathbf{x}_{0} \in X$ and is perpendicular to vector $\mathbf{n} \ne 0$. $$ \left< \mathbf{x} - \mathbf{x}_{0} , \mathbf{n} \right> = \mathbf{0} $$
  3. The set of points satisfying the following equation $S \subset X$ is defined as a Sphere with center $\mathbf{x}_{0} \in X$ and Radius $r > 0$. $$ \left< \mathbf{x} - \mathbf{x}_{0} , \mathbf{x} - \mathbf{x}_{0} \right> = r^{2} $$

Line, Plane, and Sphere all in one

LinePlaneSphere

LOL


  1. Millman. (1977). Elements of Differential Geometry: p8~10. ↩︎