Blaze@reddthat.com to Map Enthusiasts@sopuli.xyzEnglish · 5 months agoTimezone changes between 1923 and 2023files.catbox.moeimagemessage-square45fedilinkarrow-up1211arrow-down16
arrow-up1205arrow-down1imageTimezone changes between 1923 and 2023files.catbox.moeBlaze@reddthat.com to Map Enthusiasts@sopuli.xyzEnglish · 5 months agomessage-square45fedilink
minus-squareDarkCloud@lemmy.worldlinkfedilinkarrow-up11arrow-down1·5 months agoTechnically every 30 metres there should be a 1 second time zone adjustment.
minus-squareSuccessful_Try543@feddit.delinkfedilinkEnglisharrow-up11arrow-down1·edit-25 months agoThen we’d be back in pre-railway era.
minus-squarederpgon@programming.devlinkfedilinkarrow-up4arrow-down1·5 months agoActually every 463 meters. 40 075km is circumference of Earth. There are 24x60x60 seconds in a day. 40 075×1 000÷(24×60 ×60) =~ 463.8
minus-squareCaspase8@aussie.zonelinkfedilinkarrow-up8·5 months agoWouldn’t it depend on latitude? It would be much less than 463 metres at the latitudes of Europe
minus-squareSuccessful_Try543@feddit.delinkfedilinkEnglisharrow-up1·edit-25 months agoYes, distance of 1" on equator (463.8 m) × cosine of latitude longitude. This means approximately 350 m in Rome, 285,6 m in Berlin and 232 m in Helsinki. In reality a bit less, as I didn’t take the ellipsoid shape of the globe into account.
Technically every 30 metres there should be a 1 second time zone adjustment.
Then we’d be back in pre-railway era.
Actually every 463 meters.
40 075km is circumference of Earth. There are 24x60x60 seconds in a day.
40 075×1 000÷(24×60 ×60) =~ 463.8
Wouldn’t it depend on latitude? It would be much less than 463 metres at the latitudes of Europe
Yes, distance of 1" on equator (463.8 m) × cosine of latitude
longitude. This means approximately 350 m in Rome, 285,6 m in Berlin and 232 m in Helsinki. In reality a bit less, as I didn’t take the ellipsoid shape of the globe into account.