 Distance

This article is about distance in the mathematical or physical sense. For other senses of the term, see distance (disambiguation)."Proximity" redirects here. For the 2001 film, see Proximity (film).
Distance (or farness) is a numerical description of how far apart objects are. In physics or everyday discussion, distance may refer to a physical length, or an estimation based on other criteria (e.g. "two counties over"). In mathematics, a distance function or metric is a generalization of the concept of physical distance. A metric is a function that behaves according to a specific set of rules, and provides a concrete way of describing what it means for elements of some space to be "close to" or "far away from" each other.
In most cases, "distance from A to B" is interchangeable with "distance between B and A".
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Mathematics
See also: Metric (mathematics)Geometry
In neutral geometry, the distance between (x_{1}) and (x_{2}) is the length of the line segment between them:
In analytic geometry, the distance between two points of the xyplane can be found using the distance formula. The distance between (x_{1}, y_{1}) and (x_{2}, y_{2}) is given by:
Similarly, given points (x_{1}, y_{1}, z_{1}) and (x_{2}, y_{2}, z_{2}) in threespace, the distance between them is:
These formulae are easily derived by constructing a right triangle with a leg on the hypotenuse of another (with the other leg orthogonal to the plane that contains the 1st triangle) and applying the Pythagorean theorem.
In the study of complicated geometries, we call this (most common) type of distance Euclidean distance, as it is derived from the Pythagorean theorem, which does not hold in NonEuclidean geometries. This distance formula can also be expanded into the arclength formula.
Distance in Euclidean space
In the Euclidean space R^{n}, the distance between two points is usually given by the Euclidean distance (2norm distance). Other distances, based on other norms, are sometimes used instead.
For a point (x_{1}, x_{2}, ...,x_{n}) and a point (y_{1}, y_{2}, ...,y_{n}), the Minkowski distance of order p (pnorm distance) is defined as:
1norm distance 2norm distance pnorm distance infinity norm distance p need not be an integer, but it cannot be less than 1, because otherwise the triangle inequality does not hold.
The 2norm distance is the Euclidean distance, a generalization of the Pythagorean theorem to more than two coordinates. It is what would be obtained if the distance between two points were measured with a ruler: the "intuitive" idea of distance.
The 1norm distance is more colourfully called the taxicab norm or Manhattan distance, because it is the distance a car would drive in a city laid out in square blocks (if there are no oneway streets).
The infinity norm distance is also called Chebyshev distance. In 2D, it is the minimum number of moves kings require to travel between two squares on a chessboard.
The pnorm is rarely used for values of p other than 1, 2, and infinity, but see super ellipse.
In physical space the Euclidean distance is in a way the most natural one, because in this case the length of a rigid body does not change with rotation.
Variational formulation of distance
The Euclidean distance between two points in space ( and ) may be written in a variational form where the distance is the minimum value of an integral:
Here is the trajectory (path) between the two points. The value of the integral (D) represents the length of this trajectory. The distance is the minimal value of this integral and is obtained when r = r ^{*} where r ^{*} is the optimal trajectory. In the familiar Euclidean case (the above integral) this optimal trajectory is simply a straight line. It is well known that the shortest path between two points is a straight line. Straight lines can formally be obtained by solving the EulerLagrange equations for the above functional. In nonEuclidean manifolds (curved spaces) where the nature of the space is represented by a metric g_{ab} the integrand has be to modified to , where Einstein summation convention has been used.
Generalization to higherdimensional objects
The Euclidean distance between two objects may also be generalized to the case where the objects are no longer points but are higherdimensional manifolds, such as space curves, so in addition to talking about distance between two points one can discuss concepts of distance between two strings. Since the new objects that are dealt with are extended objects (not points anymore) additional concepts such as nonextensibility, curvature constraints, and nonlocal interactions that enforce noncrossing become central to the notion of distance. The distance between the two manifolds is the scalar quantity that results from minimizing the generalized distance functional, which represents a transformation between the two manifolds:
The above double integral is the generalized distance functional between two plymer conformation. s is a spatial parameter and t is pseudotime. This means that is the polymer/string conformation at time t_{i} and is parameterized along the string length by s. Similarly is the trajectory of an infinitesimal segment of the string during transformation of the entire string from conformation to conformation . The term with cofactor λ is a Lagrange multiplier and its role is to ensure that the length of the polymer remains the same during the transformation. If two discrete polymers are inextensible, then the minimaldistance transformation between them no longer involves purely straightline motion, even on a Euclidean metric. There is a potential application of such generalized distance to the problem of protein folding^{[1]}^{[2]} This generalized distance is analogous to the NambuGoto action in string theory, however there is no exact correspondence because the Euclidean distance in 3space is inequivalent to the spacetime distance minimized for the classical relativistic string.
Algebraic distance
The algebraic distance is a metric often used in computer vision that can be minimized by least squares estimation. [1][2] For curves or surfaces given by the equation x^{T}Cx = 0 (such as a conic in homogeneous coordinates), the algebraic distance from the point x' to the curve is simply x'^{T}Cx'. It may serve as an "initial guess" for geometric distance to refine estimations of the curve by more accurate methods, such as nonlinear least squares.
General case
In mathematics, in particular geometry, a distance function on a given set M is a function d: M×M → R, where R denotes the set of real numbers, that satisfies the following conditions:
 d(x,y) ≥ 0, and d(x,y) = 0 if and only if x = y. (Distance is positive between two different points, and is zero precisely from a point to itself.)
 It is symmetric: d(x,y) = d(y,x). (The distance between x and y is the same in either direction.)
 It satisfies the triangle inequality: d(x,z) ≤ d(x,y) + d(y,z). (The distance between two points is the shortest distance along any path).
Such a distance function is known as a metric. Together with the set, it makes up a metric space.
For example, the usual definition of distance between two real numbers x and y is: d(x,y) = x − y. This definition satisfies the three conditions above, and corresponds to the standard topology of the real line. But distance on a given set is a definitional choice. Another possible choice is to define: d(x,y) = 0 if x = y, and 1 otherwise. This also defines a metric, but gives a completely different topology, the "discrete topology"; with this definition numbers cannot be arbitrarily close.
Distances between sets and between a point and a set
Various distance definitions are possible between objects. For example, between celestial bodies one should not confuse the surfacetosurface distance and the centertocenter distance. If the former is much less than the latter, as for a LEO, the first tends to be quoted (altitude), otherwise, e.g. for the EarthMoon distance, the latter.
There are two common definitions for the distance between two nonempty subsets of a given set:
 One version of distance between two nonempty sets is the infimum of the distances between any two of their respective points, which is the everyday meaning of the word. This is a symmetric premetric. On a collection of sets of which some touch or overlap each other, it is not "separating", because the distance between two different but touching or overlapping sets is zero. Also it is not hemimetric, i.e., the triangle inequality does not hold, except in special cases. Therefore only in special cases this distance makes a collection of sets a metric space.
 The Hausdorff distance is the larger of two values, one being the supremum, for a point ranging over one set, of the infimum, for a second point ranging over the other set, of the distance between the points, and the other value being likewise defined but with the roles of the two sets swapped. This distance makes the set of nonempty compact subsets of a metric space itself a metric space.
The distance between a point and a set is the infimum of the distances between the point and those in the set. This corresponds to the distance, according to the firstmentioned definition above of the distance between sets, from the set containing only this point to the other set.
In terms of this, the definition of the Hausdorff distance can be simplified: it is the larger of two values, one being the supremum, for a point ranging over one set, of the distance between the point and the set, and the other value being likewise defined but with the roles of the two sets swapped.
Graph theory
In graph theory the distance between two vertices is the length of the shortest path between those vertices.
Distance versus directed distance and displacement
Distance cannot be negative and distance travelled never decreases. Distance is a scalar quantity or a magnitude, whereas displacement is a vector quantity with both magnitude and direction.
The distance covered by a vehicle (for example as recorded by an odometer), person, animal, or object along a curved path from a point A to a point B should be distinguished from the straight line distance from A to B. For example whatever the distance covered during a round trip from A to B and back to A, the displacement is zero as start and end points coincide. In general the straight line distance does not equal distance travelled, except for journeys in a straight line.
Directed distance
Directed distances are distances with a direction or sense. They can be determined along straight lines and along curved lines. A directed distance along a straight line from A to B is a vector joining any two points in a ndimensional Euclidean vector space. A directed distance along a curved line is not a vector and is represented by a segment of that curved line defined by endpoints A and B, with some specific information indicating the sense (or direction) of an ideal or real motion from one endpoint of the segment to the other (see figure). For instance, just labelling the two endpoints as A and B can indicate the sense, if the ordered sequence (A, B) is assumed, which implies that A is the starting point.
A displacement (see above) is a special kind of directed distance defined in mechanics. A directed distance is called displacement when it is the distance along a straight line (minimum distance) from A and B, and when A and B are positions occupied by the same particle at two different instants of time. This implies motion of the particle. displace is a vector quantity.
Another kind of directed distance is that between two different particles or point masses at a given time. For instance, the distance from the center of gravity of the Earth A and the center of gravity of the Moon B (which does not strictly imply motion from A to B).Shortest path length may be equal to displacement or may not be equal to.Distance from starting point is always equal to magnitude of displacement. For same particle distance travelled is always greater than or equal to magnitude of displacement. Shortest path length is not necessary always displacement.Diplacement may increase or decrease but distance travelled never decreases.
Other "distances"
 Estatistics, or energy statistics, are functions of distances between statistical observations.
 Mahalanobis distance is used in statistics.
 Hamming distance and Lee distance are used in coding theory.
 Levenshtein distance
 Chebyshev distance
 Canberra distance
Circular distance is the distance traveled by a wheel. The circumference of the wheel is 2π × radius, and assuming the radius to be 1, then each revolution of the wheel is equivalent of the distance 2π radians. In engineering ω = 2πƒ is often used, where ƒ is the frequency.
See also
 Length
 Milestone
 Metric (mathematics)
 Metric space
 Orders of magnitude (length)
 Proper length
 Distance matrix
 Hamming distance
 Lee distance
 Proxemics – physical distance between people
 Meridian arc
References
 ^ SS Plotkin, PNAS.2007; 104: 14899–14904,
 ^ AR Mohazab, SS Plotkin,"Minimal Folding Pathways for CoarseGrained Biopolymer Fragments" Biophysical Journal, Volume 95, Issue 12, Pages 5496–5507
Kinematics ← Integrate … Differentiate →
Displacement (Distance)  Velocity (Speed)  Acceleration  Jerk  Jounce
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distance — [ distɑ̃s ] n. f. • 1223; lat. distantia 1 ♦ Longueur qui sépare une chose d une autre. ⇒ 1. écart, écartement, éloignement, 1. espace, étendue, intervalle. Distance entre deux lieux. Distance d un point à un autre, de la Terre à la Lune. Évaluer … Encyclopédie Universelle
Distance — Dis tance, n. [F. distance, L. distantia.] 1. The space between two objects; the length of a line, especially the shortest line joining two points or things that are separate; measure of separation in place. [1913 Webster] Every particle attracts … The Collaborative International Dictionary of English
distance — [dis′təns] n. [ME distaunce < OFr distance < L distantia < distans, prp. of distare, to stand apart < dis , apart + stare, STAND] 1. the fact or condition of being separated or removed in space or time; remoteness 2. a gap, space, or… … English World dictionary
distance — DISTANCE. s. fém. L espace, l intervalle d un lieu à un autre. La distance des lieux. La distance d une ville à l autre. [b]f♛/b] On le dit aussi Du temps. La distance des temps. Il y a une grande distance depuis l Empire des Assyriens jusqu à l… … Dictionnaire de l'Académie Française 1798
distance — DISTANCE. s. f. L espace, l intervalle qu il y a d un lieu à un autre. La distance des lieux. la distance qu il y a d un lieu à un autre. On le dit aussi du temps. La distance des temps. il y a une grande distance depuis l Empire des Assiriens… … Dictionnaire de l'Académie française
distancé — distancé, ée (di stan sé, sée) adj. Dépassé à la course. Ce cheval d abord distancé par les autres coureurs. Fig. Distancé dans la carrière des honneurs par des compétiteurs plus heureux. Absolument. Un cheval distancé. Vous serez distancé … Dictionnaire de la Langue Française d'Émile Littré
Distance — Dis tance, v. t. [imp. & p. p. {Distanced}; p. pr. & vb. n. {Distancing}.] 1. To place at a distance or remotely. [1913 Webster] I heard nothing thereof at Oxford, being then miles distanced thence. Fuller. [1913 Webster] 2. To cause to appear as … The Collaborative International Dictionary of English
Distance — Saltar a navegación, búsqueda Distance ( distancia en inglés) puede referirse a: Distance, un disco de Hikaru Utada Distance, una película de Hirokazu Koreeda Obtenido de Distance Categoría: Wikipedia:Desambiguación … Wikipedia Español
Distance (EP) — Distance EP by Antagonist A.D Released 2007 Genre M … Wikipedia
distance — ► NOUN 1) the length of the space between two points. 2) the condition of being far off; remoteness. 3) a far off point or place. 4) an interval of time or relation. 5) the full length or time of a race or other contest. 6) Brit. Horse Racing a… … English terms dictionary
distance — [n1] interval, range absence, ambit, amplitude, area, bit, breadth, compass, country mile*, expanse, extension, extent, farness, far piece*, gap, good ways*, heavens, hinterland, horizon, lapse, length, objective, orbit, outpost, outskirts,… … New thesaurus