Purposes: The motion of a javelin is complicated after it is released. It is necessary to use some skills to calculate the rotation kinematics about the longitudinal axis of a javelin. In this study, the Euler angle, the Cardan angle and the screw axis methods were used to calculate them. Methods: Two synchronized Redlake high-speed cameras (250 Hz) and a javelin with three fixed reflective markers were used in the experiment. Results: The mean difference among the three methods in angle, angular velocity and acceleration was 0.048±0.029%, 0.03±0.015%, 1.34±1.54%, respectively. Generally the results by the three methods were close, and all of the three methods are suitable for the calculation on these variables. The angular velocity and acceleration about the javelin longitudinal axis were about 1864 deg/s and 27100 deg/s^2 at release. Conclusion: In the Euler angle and Cardan angle methods, the order of rotations needs to be taken into account, however no similar problem occurres in the screw axis method. The results suggested that the longitudinal axis should be set as the second axis in the Euler angle method for avoiding singularity or Gimbal Lock problem.