11. The two are gravitationally bound and separated at 310 AU . The binary semimajor axis is 390 AU. 12. Once phasing orbit period is determined, the phasing orbit semimajor axis can be derived from the period formula: 13. So this planet will need couple more years of observations to better constrain the period and semimajor axis . 14. It shows a noticeable amount of flattening, with an aspect ratio of between its semimajor axis and semiminor axis. 15. The value for the semimajor axis ( a ) of the WGS 72 Ellipsoid is 6 378 135 meters. 16. Semimajor axis is 3.84399E8 m.17. The semimajor axis of this 3.68 Jupiter mass planet is 0.97 astronomical units, taking approximately 326 days to revolve. 18. The orbital period is 572 days and orbits at a semimajor axis of 1.35 eccentric orbits of any known planets. 19. The semimajor axis would be 5.32 AU with an orbital period of 4100 ?7300 days ( 11 years ). 20. The orbital semimajor axis is only 0.13 eccentric than the orbit of any of the major planets of our solar system.
