Osculating Plane

osculating plane

[′äs·kyə‚lād·iŋ ′plān] (mathematics) For a curve C at some point p, this is the limiting plane obtained from taking planes through the tangent to C at p and containing some variable point p ′ and then letting p ′ approach p along C.

Osculating Plane

The osculating plane of a curve l at a point M is the plane having contact of order n ≥ 2 with l at M. The oscillating plane can also be defined as the plane in the limiting

Figure 1

position of the plane through three points of l as the points approach M.

From the standpoint of mechanics, the osculating plane can be characterized as the acceleration plane. As a mass point moves arbitrarily along l, the acceleration vector lies in the osculating plane.

Except for special cases, l usually penetrates the osculating plane at M (see Figure 1). If l is defined by the equations x = x(u), y = y(u), and z = z(u), the equation of the osculating plane is of the form

Here, X, Y, and Z are the moving coordinates, and x, y, z, x’, y’, z’, x”, y”, and z” are computed at M. If all three coefficients of X, Y, and Z in the equation vanish, the osculating plane is undefined—it can coincide with any plane through the tangent. (See alsoDIFFERENTIAL GEOMETRY.)

REFERENCE

Rashevskii, P. K. Kurs differentsial’noi geomelrii, 4th ed. Moscow, 1956.

单词	osculating plane
释义	Osculating Plane osculating plane [′äs·kyə‚lād·iŋ ′plān] (mathematics) For a curve C at some point p, this is the limiting plane obtained from taking planes through the tangent to C at p and containing some variable point p ′ and then letting p ′ approach p along C. Osculating Plane The osculating plane of a curve l at a point M is the plane having contact of order n ≥ 2 with l at M. The oscillating plane can also be defined as the plane in the limiting Figure 1 position of the plane through three points of l as the points approach M. From the standpoint of mechanics, the osculating plane can be characterized as the acceleration plane. As a mass point moves arbitrarily along l, the acceleration vector lies in the osculating plane. Except for special cases, l usually penetrates the osculating plane at M (see Figure 1). If l is defined by the equations x = x(u), y = y(u), and z = z(u), the equation of the osculating plane is of the form Here, X, Y, and Z are the moving coordinates, and x, y, z, x’, y’, z’, x”, y”, and z” are computed at M. If all three coefficients of X, Y, and Z in the equation vanish, the osculating plane is undefined—it can coincide with any plane through the tangent. (See alsoDIFFERENTIAL GEOMETRY.) REFERENCE Rashevskii, P. K. Kurs differentsial’noi geomelrii, 4th ed. Moscow, 1956.
随便看	dry steam dry-steam drum dry-steam energy system dry steering dry stock dry stone dry-stone drystone dry stone conservancy dry stone wall dry-stone wall dry stone wall association of canada dry storage dry stove dry strength dry string dry-sugar equivalent dry suit ffxii ffxiv ffxo ffxv ffy ffya ffyb