MiscellaneousfromHackernoon1 year agoTimekeeping in Space: Comparing Rotating and Inertial Frames | HackerNoonClocks on the Moon and Earth show consistent fractional rate differences in various coordinate systems.
BootstrappingfromHackernoon1 year agoWhy It's So Difficult To Establish a Lunar Time Standard | HackerNoonThe establishment of GPS time highlights relativistic effects on clocks in orbit.
fromHackernoon1 year agoProductivityThe Role of Gravity and Motion in Space-Time Coordination | HackerNoon
MiscellaneousfromHackernoon1 year agoTimekeeping in Space: Comparing Rotating and Inertial Frames | HackerNoonClocks on the Moon and Earth show consistent fractional rate differences in various coordinate systems.
BootstrappingfromHackernoon1 year agoWhy It's So Difficult To Establish a Lunar Time Standard | HackerNoonThe establishment of GPS time highlights relativistic effects on clocks in orbit.
fromHackernoon1 year agoProductivityThe Role of Gravity and Motion in Space-Time Coordination | HackerNoon
fromHackernoon1 year agoEquations of Motion in the Earth-Moon System | HackerNoonIn constructing a freely falling center of mass frame for the Earth-Moon system, we find that the mutual orbit of both celestial bodies aligns with Kepler's laws.Environment
