mynameisigglepiggle@lemmy.worldcake to Showerthoughts@lemmy.world · 2 months agoIf gravity is a particle... How come it can escape a black hole? 🤔interestingengineering.comexternal-linkmessage-square35fedilinkarrow-up1102arrow-down128file-text
arrow-up174arrow-down1external-linkIf gravity is a particle... How come it can escape a black hole? 🤔interestingengineering.commynameisigglepiggle@lemmy.worldcake to Showerthoughts@lemmy.world · 2 months agomessage-square35fedilinkfile-text
minus-squaregandalf_der_12te@lemmy.blahaj.zonelinkfedilinkarrow-up8·2 months agoThank you, finally somebody asks. Also, other important question: What are the differential equations that describe how the Gravity Field propagates through space? In other words, at what speed does gravity propagate?
minus-squareoffspec@lemmy.worldlinkfedilinkarrow-up16·2 months agoI’m relatively certain we’ve established that gravity travels at the speed of light
minus-squaremynameisigglepiggle@lemmy.worldcakeOPlinkfedilinkarrow-up23·2 months agoOnly in a vacuum, in water it travels much more slowly. That’s why you can float on water.
minus-squareelidoz@lemmy.mllinkfedilinkarrow-up7·2 months agoArchimedes is going to get really angry when he reads your comment
minus-squareC126@sh.itjust.workslinkfedilinkarrow-up1·2 months agoIsn’t it the same speed electromagnetic fields propagate through space?
Thank you, finally somebody asks.
Also, other important question: What are the differential equations that describe how the Gravity Field propagates through space? In other words, at what speed does gravity propagate?
I’m relatively certain we’ve established that gravity travels at the speed of light
Only in a vacuum, in water it travels much more slowly. That’s why you can float on water.
Archimedes is going to get really angry when he reads your comment
A WITCH!
Lol nope
It was a good attempt.
Isn’t it the same speed electromagnetic fields propagate through space?