teft@startrek.website to Astronomy@mander.xyz · 1 year agoZooming Black Holes Can Reach ~10% The Speed of Light, Scientists Saywww.sciencealert.comexternal-linkmessage-square13fedilinkarrow-up135arrow-down11cross-posted to: space@beehaw.org
arrow-up134arrow-down1external-linkZooming Black Holes Can Reach ~10% The Speed of Light, Scientists Saywww.sciencealert.comteft@startrek.website to Astronomy@mander.xyz · 1 year agomessage-square13fedilinkcross-posted to: space@beehaw.org
minus-squarementuri@mander.xyzlinkfedilinkarrow-up4·1 year agoProbably relative to the CMB (the frame of reference where there is no redshift or blueshift bias in any direction).
minus-squaremookulator@mander.xyzlinkfedilinkarrow-up2·1 year agoThank you! At that scale the simpler answers just don’t feel sufficient
minus-squareteft@startrek.websiteOPlinkfedilinkarrow-up2·1 year agoRelative to their point of origin.
minus-squaredudinax@programming.devlinkfedilinkarrow-up2·1 year agoAt that speed, relative to most nearby large object
minus-squaremookulator@mander.xyzlinkfedilinkarrow-up2·1 year agoBut what if all nearby objects are moving towards it at a similar speed? Or away? At such a large scale speed becomes a mind bending thing.
minus-squaredudinax@programming.devlinkfedilinkarrow-up1·1 year agoNo other large object will be moving close to that speed so it’ll be almost like they are standing still.
Relative to what exactly?
Probably relative to the CMB (the frame of reference where there is no redshift or blueshift bias in any direction).
Thank you! At that scale the simpler answers just don’t feel sufficient
Relative to their point of origin.
At that speed, relative to most nearby large object
But what if all nearby objects are moving towards it at a similar speed? Or away? At such a large scale speed becomes a mind bending thing.
No other large object will be moving close to that speed so it’ll be almost like they are standing still.