The Picard Maneuver@lemmy.worldM to Lemmy Shitpost@lemmy.world · 1 年前A scientific discoverylemmy.worldimagemessage-square66linkfedilinkarrow-up1903
arrow-up1903imageA scientific discoverylemmy.worldThe Picard Maneuver@lemmy.worldM to Lemmy Shitpost@lemmy.world · 1 年前message-square66linkfedilink
minus-squareMisterFrog@lemmy.worldlinkfedilinkarrow-up9·1 年前Um acshually gravity in the international space station is not that much lower than on the surface of earth, just that they are weightless in orbit.
minus-squareuntorquer@lemmy.worldlinkfedilinkarrow-up10·1 年前Wrong. The earth orbits the space station. Ignore the epicyclic motion of other nearby bodies.
minus-squaresomeacnt@sh.itjust.workslinkfedilinkEnglisharrow-up2·1 年前Ah, good old relativity. Btw where did you learn about epicycles?
minus-squareuntorquer@lemmy.worldlinkfedilinkarrow-up1·1 年前Name any documentary on the history of astrology e.g. The Cosmos
minus-squareMisterFrog@lemmy.worldlinkfedilinkarrow-up1·1 年前I believe microgravity refers things like walking on the moon. Where the moon’s pull on you is far less than than if you were on earth
minus-squareMisterFrog@lemmy.worldlinkfedilinkarrow-up1·1 年前Oh, seems I’m wrong, well that’s a bit incongruent if you ask me. Since the force of gravity from earlier isn’t that much lower in low earth orbit :/
minus-squareKlear@sh.itjust.workslinkfedilinkarrow-up2·1 年前Remember that gravity is relative. The earth is accelerating the ISS astronauts same as us, but relative to their inertial system they are weightless. There is no actually there. Relativity is relativity.
Um acshually gravity in the international space station is not that much lower than on the surface of earth, just that they are weightless in orbit.
Wrong. The earth orbits the space station. Ignore the epicyclic motion of other nearby bodies.
Ah, good old relativity. Btw where did you learn about epicycles?
Name any documentary on the history of astrology e.g. The Cosmos
That’s what microgravity means.
I believe microgravity refers things like walking on the moon. Where the moon’s pull on you is far less than than if you were on earth
Nope, that is not so.
Oh, seems I’m wrong, well that’s a bit incongruent if you ask me. Since the force of gravity from earlier isn’t that much lower in low earth orbit :/
Remember that gravity is relative. The earth is accelerating the ISS astronauts same as us, but relative to their inertial system they are weightless. There is no actually there. Relativity is relativity.