Hyperbolic motion (relativity)

Hyperbolic motion is the motion of an object with constant proper acceleration in special relativity. It is called hyperbolic motion because the equation describing the path of the object through spacetime is a hyperbola, as can be seen when graphed on a Minkowski diagram.

The proper acceleration $\alpha$ of a particle is defined as the acceleration that a particle "feels" as it accelerates from one inertial reference frame to another. This can be derived mathematically as

\alpha=\frac{1}{\left(1-u^2/c^2\right)^{3/2}}\frac{du}{dt},

where $u$ is the instantaneous speed of the particle, $c$ is the speed of light, and $t$ is time. Solving for the equation of motion results in

x^2-c^2t^2=c^4/\alpha^2,

which is a hyperbola in time and the spatial location variable $x.$

Hyperbolic motion is easily visualized on a Minkowski diagram, where the motion of the accelerating particle is along the $x$ -axis. Each hyperbola is defined by

X=c^2/\alpha.

File:HyperbolicMotion.PNG

References

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Wikisource translation: The Theory of the Rigid Electron in the Kinematics of the Principle of Relativity

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Ludwik Silberstein (1914) The Theory of Relativity, page 190.
Naber, Gregory L., The Geometry of Minkowski Spacetime, Springer-Verlag, New York, 1992. ISBN 0-387-97848-8 (hardcover), ISBN 0-486-43235-1 (Dover paperback edition). pp 58-60.

External links

The Relativistic Rocket, John Baez, UC Riverside

Hyperbolic motion (relativity)

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