Presenter(s)
Abdullah M. A. A. Alazemi, Ali R. M. A. R. Alharbi, Naser A. N. M. F. Mobarak
Files
Download Project (149 KB)
Description
The paper talks about the chance of finding four shuttle in four out of the five Lagrange points of the Sun-Earth framework and trading electromagnetic heartbeats among them. Remembering stations for Earth, different shut ways for the beats are conceivable. Season of flight estimations would be performed. The hour of flight contrast among right-and left-handed circuits is relative to the precise force of the Sun and the identification of the impact would arrive at exactness’s better than 1% relying upon the precision of the clock. The four focuses could likewise be utilized as "fake pulsars" for a relativistic situating framework at the size of the planetary group. Extra intriguing conceivable outcomes incorporate recognition of a cosmic gyromagnetic field, recovering data about the inside of the Sun and refining the assessment of the impact of the quadrupole snapshot of the Earth and of the Sun on the gravitational time delay.
Publication Date
4-20-2022
Project Designation
Course Project
Primary Advisor
Ivan Sudakow
Primary Advisor's Department
Physics
Keywords
Stander Symposium project, College of Arts and Sciences
Recommended Citation
"The Lagrange Point" (2022). Stander Symposium Projects. 2549.
https://ecommons.udayton.edu/stander_posters/2549
Comments
Presentation: 10:45 a.m.-12:00 p.m., Kennedy Union Ballroom
This project reflects research conducted as part of a course project designed to give students experience in the research process.
Course: PHY 470