I meant what stars could go as bright as +3 at the peak of their supernova, not current stars.physicshelp21 said:There are many stars that are visible to the naked eye and have an apparent magnitude of +3 or brighter. Some examples include Sirius, Canopus, Alpha Centauri A and B, Vega, Capella, Arcturus, and Rigel. There are also many other stars that are visible to the naked eye but have an apparent magnitude fainter than +3.
Regarding your second question, the speed at which observatories could move to observe Betelgeuse depends on a number of factors, including the distance to the star, the location of the observatories, and the availability of suitable telescopes and other equipment. Betelgeuse is located approximately 642.5 light-years from Earth, which means that it would take a very long time for a spacecraft or other astronomical observatory to travel there.
I hope it helped.
Some people think that's funny.swampwiz said:This weird answer sounds like it was generated by a bot.
swampwiz said:(I use +3 as the cutoff as that seems to be the limit of easily visible stars.) Yes, I know that Betelgeuse could go up in a < -10 blaze of glory, but I wonder what other ones are out there.
On a side note, how fast could the big observatories move to it to observe it? And how quickly would it be noticed at all?