Four-velocity

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## Velocity

## Theory of relativity

### Time dilation

### Definition of the four-velocity

### Components of the four-velocity

### Magnitude

## See also

## Remarks

## References

This article uses material from the Wikipedia page available here. It is released under the Creative Commons Attribution-Share-Alike License 3.0.

Four-velocity

In physics, in particular in special relativity and general relativity, a **four-velocity** is a four-vector in four-dimensional spacetime^{[nb 1]} that represents the relativistic counterpart of velocity, which is a three-dimensional vector in space.

Physical events correspond to mathematical points in time and space, the set of all of them together forming a mathematical model of physical four-dimensional spacetime. The history of an object traces a curve in spacetime, called its world line. If the object has mass, so that its speed is necessarily less than the speed of light, the world line may be parametrized by the proper time of the object. The four-velocity is the rate of change of four-position with respect to the proper time along the curve. The velocity, in contrast, is the rate of change of the position in (three-dimensional) space of the object, as seen by an observer, with respect to the observer's time.

The value of the magnitude of an object's four-velocity, i.e. the quantity obtained by applying the metric tensor *g* to the four-velocity **U**, that is ||||^{2} = **U** ? **U** = *g*_{}*U*^{?}*U*^{?}, is always equal to ±*c*^{2}, where c is the speed of light. Whether the plus or minus sign applies depends on the choice of metric signature. For an object at rest its four-velocity is parallel to the direction of the time coordinate with *U*^{0} = *c*. A four-velocity is thus the normalized future-directed timelike tangent vector to a world line, and is a contravariant vector. Though it is a vector, addition of two four-velocities does not yield a four-velocity: the space of four-velocities is not itself a vector space.^{[nb 2]}

The path of an object in three-dimensional space (in an inertial frame) may be expressed in terms of three spatial coordinate functions *x ^{i}*(

The three coordinates form the 3d position vector, written as a column vector

The components of the velocity (tangent to the curve) at any point on the world line are

Each component is simply written

In Einstein's theory of relativity, the path of an object moving relative to a particular frame of reference is defined by four coordinate functions *x ^{?}*(

Each function depends on one parameter *?* called its proper time. As a column vector,

From time dilation, the differentials in coordinate time *t* and proper time *?* are related by

where the Lorentz factor,

is a function of the Euclidean norm *u* of the 3d velocity vector :

The four-velocity is the tangent four-vector of a timelike world line. The four-velocity at any point of world line is defined as:

where is the four-position and is the proper time.^{[1]}

The four-velocity defined here using the proper time of an object does not exist for world lines for massless objects such as photons travelling at the speed of light; nor is it defined for tachyonic world lines, where the tangent vector is spacelike.

The relationship between the time *t* and the coordinate time *x*^{0} is defined by

Taking the derivative of this with respect to the proper time *?*, we find the *U ^{?}* velocity component for

and for the other 3 components to proper time we get the *U ^{?}* velocity component for

where we have used the chain rule and the relationships

Thus, we find for the four-velocity :

Written in standard four-vector notation this is:

where is the temporal component and is the spatial component.

In terms of the synchronized clocks and rulers associated with a particular slice of flat spacetime, the three spacelike components of four-velocity define a traveling object's proper velocity i.e. the rate at which distance is covered in the reference map frame per unit proper time elapsed on clocks traveling with the object.

Unlike most other four-vectors, the four-velocity has only 3 independent components instead of 4. The factor is a function of the three-dimensional velocity .

When certain Lorentz scalars are multiplied by the four-velocity, one then gets new physical four-vectors that have 4 independent components.

For example:

- Four-momentum: , where is the mass
- Four-current density: , where is the charge density

Effectively, the factor combines with the Lorentz scalar term to make the 4th independent component

- and

Using the differential of the four-position, the magnitude of the four-velocity can be obtained:

in short, the magnitude of the four-velocity for any object is always a fixed constant:

The norm is also:

so that:

which reduces to the definition of the Lorentz factor.

- Four-acceleration
- Four-momentum
- Four-force
- Four-gradient
- Algebra of physical space
- Congruence (general relativity)
- Hyperboloid model
- Rapidity

**^**Technically, the four-vector should be thought of as residing in the tangent space of a point in spacetime, spacetime itself being modeled as a smooth manifold. This distinction is significant in general relativity.**^**The set of four-velocities is a subset of the tangent space (which*is*a vector space) at an event. The label*four-vector*stems from the behavior under Lorentz transformations, namely under which particular representation they transform.

- Einstein, Albert (1920).
*Relativity: The Special and General Theory*. Translated by Robert W. Lawson. New York: Original: Henry Holt, 1920; Reprinted: Prometheus Books, 1995. - Rindler, Wolfgang (1991).
*Introduction to Special Relativity (2nd)*. Oxford: Oxford University Press. ISBN 0-19-853952-5.

**^**McComb, W. D. (1999).*Dynamics and relativity*. Oxford [etc.]: Oxford University Press. p. 230. ISBN 0-19-850112-9.

This article uses material from the Wikipedia page available here. It is released under the Creative Commons Attribution-Share-Alike License 3.0.

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