Conical surface

A circular conical surface

In geometry, a (general) conical surface is the unbounded surface formed by the union of all the straight lines that pass through a fixed point — the apex or vertex — and any point of some fixed space curve — the directrix — that does not contain the apex. Each of those lines is called a generatrix of the surface.

Every conic surface is ruled and developable. In general, a conical surface consists of two congruent unbounded halves joined by the apex. Each half is called a nappe, and is the union of all the rays that start at the apex and pass through a point of some fixed space curve. (In some cases, however, the two nappes may intersect, or even coincide with the full surface.) Sometimes the term "conical surface" is used to mean just one nappe.

If the directrix is a circle $C$ , and the apex is located on the circle's axis (the line that contains the center of $C$ and is perpendicular to its plane), one obtains the right circular conical surface. This special case is often called a cone, because it is one of the two distinct surfaces that bound the geometric solid of that name. This geometric object can also be described as the set of all points swept by a line that intercepts the axis and rotates around it; or the union of all lines that intersect the axis at a fixed point $p$ and at a fixed angle $θ$ . The aperture of the cone is the angle $2θ$ .

More generally, when the directrix $C$ is an ellipse, or any conic section, and the apex is an arbitrary point not on the plane of $C$ , one obtains a conical quadric, which is a special case of a quadric surface.

A cylindrical surface can be viewed as a limiting case of a conical surface whose apex is moved off to infinity in a particular direction. Indeed, in projective geometry a cylindrical surface is just a special case of a conical surface.

Equations

A conical surface $S$ can be described parametrically as

S (t, u) = v + u q (t)

where $v$ is the apex and $q$ is the directrix.

A right circular conical surface of aperture $2θ$ , whose axis is the $z$ coordinate axis, and whose apex is the origin, it is described parametrically as

S (t, u) = (u cos θcos t, u cos θsin t, u sin θ)

where $t$ and $u$ range over $[0,2π)$ and $(-\infty,+\infty)$ , respectively. In implicit form, the same surface is described by $S (x, y, z) = 0$ where

S (x, y, z) = (x 2 + y 2)(cos θ) 2 - z 2 (sin θ) 2 .

More generally, a right circular conical surface with apex at the origin, axis parallel to the vector $d$ , and aperture $2θ$ , is given by the implicit vector equation $S (u) = 0$ where

S (u) = (u . d) 2 - (d . d)(u . u)(cos θ) 2

S (u) = u . d - | d | | u | cos θ

where $u = (x, y, z)$ , and $u . d$ denotes the dot product.

In three coordinates, x, y and z, the general equation for a cone with apex at origin is a homogenous equation of degree 2 given by

S (x, y, z) = a x 2 + b y 2 + c z 2 + 2 u x y + 2 v y z + 2 w z x = 0

Conical surface — Conic Con ic, Conical Con ic*al, a. [Gr. ?: cf. F. conique. See {Cone}.] 1. Having the form of, or resembling, a geometrical cone; round and tapering to a point, or gradually lessening in circumference; as, a conic or conical figure; a conical… … The Collaborative International Dictionary of English
conical surface — A surface extending from the periphery of the horizontal surface outward and upward at a slope of 20 horizontal to 1 vertical for a horizontal distance of 4000 ft. It is an imaginary surface, in which any object that projects above the surface is … Aviation dictionary
conical surface — noun mathematics : the surface generated by a moving straight line which always passes through a fixed point and intersects a fixed curve … Useful english dictionary
Conical — Conic Con ic, Conical Con ic*al, a. [Gr. ?: cf. F. conique. See {Cone}.] 1. Having the form of, or resembling, a geometrical cone; round and tapering to a point, or gradually lessening in circumference; as, a conic or conical figure; a conical… … The Collaborative International Dictionary of English
Conical pendulum — Conic Con ic, Conical Con ic*al, a. [Gr. ?: cf. F. conique. See {Cone}.] 1. Having the form of, or resembling, a geometrical cone; round and tapering to a point, or gradually lessening in circumference; as, a conic or conical figure; a conical… … The Collaborative International Dictionary of English
Conical projection — Conic Con ic, Conical Con ic*al, a. [Gr. ?: cf. F. conique. See {Cone}.] 1. Having the form of, or resembling, a geometrical cone; round and tapering to a point, or gradually lessening in circumference; as, a conic or conical figure; a conical… … The Collaborative International Dictionary of English
conical projection — /ˌkɒnɪkəl prəˈdʒɛkʃən/ (say .konikuhl pruh jekshuhn) noun a map projection based on the concept of projecting the earth s surface on a conical surface, which is then unrolled to a plane surface. Also, conic projection …
Surface of revolution — A surface of revolution is a surface created by rotating a curve lying on some plane (the generatrix) around a straight line (the axis of rotation) that lies on the same plane. Examples of surfaces generated by a straight line are the cylindrical … Wikipedia
Conical intersection — Ideal Conical Intersection In quantum chemistry, a conical intersection of two potential energy surfaces of the same spatial and spin symmetries is the set of molecular geometry points where the two potential energy surfaces are degenerate… … Wikipedia
Conical mill — A conical mill (or conical screen mill) is a machine used to reduce the size of material in a uniform manner. It is an alternative to the hammermill or other forms of grinding mills. The conical mill operates by having the product being fed into… … Wikipedia

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