http://arxiv.org/abs/1601.00924
It is well known that objects can oscillate around the Lagrangian point L4. In this manuscript we compute the period of these oscillations by computing the exact expression of the characteristic polynomial of the matrix that determined the stability of the Lagrangian point. When we use relativity theory we are supposed to get a small improvement of this period. This paper compares the values of the the characteristic polynomials computed in the following way: 1. Using relativity with an error smaller than 10^{-30}. 2. The characteristic polynomial coming from a paper written in 2002, 3. The characteristic polynomial coming from a paper written in 2006 and 4. The characteristic polynomial obtain without using relativity.
We show that the polynomial 1 is closer to the polynomial 4 than it is to the polynomials 2 and 3. This is, the error in both polynomials that dealt with relativity coming from previous papers is bigger than the error coming from the characteristic polynomial that do not use relativity at all.
We also prove the existence of the Lagrangian point L4 in the Sun-Earth system using the Poincare Miranda theorem.
O. Perdomo
Wed, 6 Jan 16
18/43
Comments: 15 pages, 1 figure
You must be logged in to post a comment.