Oval
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An oval (Template:Etymology) is a closed curve in a plane which resembles the outline of an egg. The term is not very specific, but in some areas of mathematics (projective geometry, technical drawing, etc.), it is given a more precise definition, which may include either one or two axes of symmetry of an ellipse. In common English, the term is used in a broader sense: any shape which reminds one of an egg. The three-dimensional version of an oval is called an ovoid.
Oval in geometry
The term oval when used to describe curves in geometry is not well-defined, except in the context of projective geometry. Many distinct curves are commonly called ovals or are said to have an "oval shape". Generally, to be called an oval, a plane curve should resemble the outline of an egg or an ellipse. In particular, these are common traits of ovals:
- they are differentiable (smooth-looking),[1] simple (not self-intersecting), convex, closed, plane curves;
- their shape does not depart much from that of an ellipse, and
- an oval would generally have an axis of symmetry, but this is not required.
Here are examples of ovals described elsewhere:
- Cassini ovals
- portions of some elliptic curves
- Moss's egg
- superellipse
- Cartesian oval
- stadium
An ovoid is the surface in 3-dimensional space generated by rotating an oval curve about one of its axes of symmetry. The adjectives ovoidal and ovate mean having the characteristic of being an ovoid, and are often used as synonyms for "egg-shaped".
Projective geometry
- In a projective plane a set ΩScript error: No such module "Check for unknown parameters". of points is called an oval, if:
- Any line Template:Mvar meets ΩScript error: No such module "Check for unknown parameters". in at most two points, and
- For any point P ∈ ΩScript error: No such module "Check for unknown parameters". there exists exactly one tangent line Template:Mvar through Template:Mvar, i.e., t ∩ Ω = {PScript error: No such module "Check for unknown parameters".}.
For finite planes (i.e. the set of points is finite) there is a more convenient characterization:[2]
- For a finite projective plane of order Template:Mvar (i.e. any line contains n + 1Script error: No such module "Check for unknown parameters". points) a set Template:Mvar of points is an oval if and only if Template:Abs = n + 1Script error: No such module "Check for unknown parameters". and no three points are collinear (on a common line).
An ovoid in a projective space is a set ΩScript error: No such module "Check for unknown parameters". of points such that:
- Any line intersects ΩScript error: No such module "Check for unknown parameters". in at most 2 points,
- The tangents at a point cover a hyperplane (and nothing more), and
- ΩScript error: No such module "Check for unknown parameters". contains no lines.
In the finite case only for dimension 3 there exist ovoids. A convenient characterization is:
- In a 3-dim. finite projective space of order n > 2Script error: No such module "Check for unknown parameters". any pointset ΩScript error: No such module "Check for unknown parameters". is an ovoid if and only if |ΩScript error: No such module "Check for unknown parameters".| and no three points are collinear.[3]
Egg shape
The shape of an egg is approximated by the "long" half of a prolate spheroid, joined to a "short" half of a roughly spherical ellipsoid, or even a slightly oblate spheroid. These are joined at the equator and share a principal axis of rotational symmetry, as illustrated above. Although the term egg-shaped usually implies a lack of reflection symmetry across the equatorial plane, it may also refer to true prolate ellipsoids. It can also be used to describe the 2-dimensional figure that, if revolved around its major axis, produces the 3-dimensional surface.
Technical drawing
In technical drawing, an oval is a figure that is constructed from two pairs of arcs, with two different radii (see image on the right). The arcs are joined at a point in which lines tangential to both joining arcs lie on the same line, thus making the joint smooth. Any point of an oval belongs to an arc with a constant radius (shorter or longer), but in an ellipse, the radius is continuously changing.
In common speech
In common speech, "oval" means a shape rather like an egg or an ellipse, which may be two-dimensional or three-dimensional. It also often refers to a figure that resembles two semicircles joined by a rectangle, like a cricket infield, speed skating rink or an athletics track. However, this is most correctly called a stadium.
The term "ellipse" is often used interchangeably with oval, but it has a more specific mathematical meaning.[4] The term "oblong" is also used to mean oval,[5] though in geometry an oblong refers to rectangle with unequal adjacent sides, not a curved figure.[6]
See also
- Ellipse
- Ellipsoidal dome
- Stadium (geometry)
- Vesica piscis – a pointed oval
- Symbolism of domes
Notes
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- ↑ If the property makes sense: on a differentiable manifold. In more general settings one might require only a unique tangent line at each point of the curve.
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