Timekeeping in Space: Comparing Rotating and Inertial Frames | HackerNoonClocks on the Moon and Earth show consistent fractional rate differences in various coordinate systems.
Why It's So Difficult To Establish a Lunar Time Standard | HackerNoonThe establishment of GPS time highlights relativistic effects on clocks in orbit.
The Role of Gravity and Motion in Space-Time Coordination | HackerNoonClocks on Earth and the Moon experience different rates due to their motion in Keplerian orbits and proximity to gravitational fields.
Timekeeping in Space: Comparing Rotating and Inertial Frames | HackerNoonClocks on the Moon and Earth show consistent fractional rate differences in various coordinate systems.
Why It's So Difficult To Establish a Lunar Time Standard | HackerNoonThe establishment of GPS time highlights relativistic effects on clocks in orbit.
The Role of Gravity and Motion in Space-Time Coordination | HackerNoonClocks on Earth and the Moon experience different rates due to their motion in Keplerian orbits and proximity to gravitational fields.
Equations of Motion in the Earth-Moon System | HackerNoonThe Earth and Moon revolve around their mutual center of mass in a locally inertial frame.
How the Moon Impacts Subsea Communication Cables: Simple and Accurate Models for Tides | HackerNoonTidal dynamics are influenced by gravitational forces from the moon and sun, which create varying water levels identified as spring and neap tides.
How to Watch China's Launch to the Far Side of the MoonChina's Chang'e-6 mission aims to collect samples from the moon's far side, potentially revealing insights into the Earth-moon system's origin and evolution.