Relativistic motion under constant force: velocity and acceleration behavior

Abstract

In relativistic dynamics, force and acceleration are no longer parallel. In this article, we revisit the relativistic motion of a particle under the action of a constant force, f. \ For a two-dimensional motion, the final velocity in each axis is (fi/f)c, independently of the initial velocities, yielding an asymptotic velocity always parallel to the force. The particular case in which the force is applied in a single axis is analyzed in detail, with the behavior of velocity and acceleration being exhibited for several configurations. Some previous results of the literature concerning velocity and acceleration behavior are improved and better explored. Differently from which was previously claimed, it is shown that a negative acceleration component can exist in the direction of the biggest force component and that acceleration does not decrease monotonically to zero.