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intersection of sphere and plane
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(Theorem)
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Theorem. The intersection curve of a sphere and a plane is a circle.
Proof. We prove the theorem without the equation of the sphere. Let $c$ be the intersection curve, $r$ the radius of the sphere and $OQ$ be the distance of the centre $O$ of the sphere and the plane. If $P$ is an arbitrary point of $c$ , then $OPQ$ is a right triangle. By the Pythagorean theorem, $$PQ = \varrho = \sqrt{r^2\!-\!OQ^2} = \mbox{\;constant}.$$
Thus any point of the curve $c$ is in the plane at a constant distance $\varrho$ from the point $Q$ , whence $c$ is a circle.
Remark. There are two special cases of the intersection of a sphere and a plane: the empty set of points ($OQ > r$ ) and a single point ($OQ = r$ ); these of course are not curves. In the former case one usually says that the sphere does not intersect the plane, in the latter one sometimes calls the common point a zero circle (it can be thought a circle with radius 0).
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"intersection of sphere and plane" is owned by pahio. [ full author list (2) ]
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Cross-references: empty set, Pythagorean theorem, right triangle, point, centre, distance, radius, equation, proof, circle, plane, sphere, curve, intersection, theorem
There is 1 reference to this entry.
This is version 19 of intersection of sphere and plane, born on 2008-08-11, modified 2008-08-15.
Object id is 10934, canonical name is IntersectionOfSphereAndPlane.
Accessed 3647 times total.
Classification:
| AMS MSC: | 51M05 (Geometry :: Real and complex geometry :: Euclidean geometries and generalizations) |
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Pending Errata and Addenda
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