Comments
RedshiftWarp t1_jdfda8r wrote
It is bizarre to imagine the geometry of that gravity-well extending all the way out here pockmarked with tiny ones from stars and clusters.
pmMeAllofIt t1_jdfkd6g wrote
It's not really.Were orbiting the center of mass of the whole galaxy, Sagittarius A* just happens to be near there, but if it was to disappear not much would happen out this far.
Sagittarius A* is about 4 million solar masses, but there's possibly about 65 billion solar masses in other stars, then about a trillion solar masses or more in dark matter. We orbit around the center of mass of all of it, and so does the black hole which only makes up about 0.0004% of the total mass(though it could be located right at the barycenter?idk).
[deleted] t1_jdg8m83 wrote
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[deleted] t1_jdfduuc wrote
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s1ngular1ty2 t1_jdfkvuz wrote
Not really. Our solar system is not orbiting the black hole. We are orbiting the center of mass of the galaxy, and it's dark matter, not the black hole. The black hole is insignificant as far as orbits of the galaxy are concerned. The dark matter of the galaxy dictates the orbits because it is 5x more massive than all the other matter combined.
[deleted] t1_jdfc7vr wrote
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Ape_Togetha_Strong t1_jdfa31f wrote
Yes, there would be time dilation. How much depends on the distance the planet was orbiting. It wouldn't be close to the same amount of time dilation as Miller's planet unless you were somewhere between 1 and 2 meters from the event horizon, which isn't exactly a reasonable orbit for a planet.
ExtonGuy t1_jdfcowv wrote
Not a dump question at all. Every day, there are about 10,000 people finding out about Sgr A* for the first time. And that's in just the US.
b407driver t1_jdhjxor wrote
I haven't heard that before.
Engrammi t1_jdjo5mm wrote
There are ten thousand people learning about any given thing for the first time every day.
[deleted] t1_jdhkb5w wrote
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Anonymous-USA t1_jdfem6r wrote
There is an ergosphere around every black hole that extends past it’s event horizon. Yes, there would be time dilation, but it would become less extreme exponentially with the distance from the center of gravity.
But time is relative so to any observer on that planet, time would tick normal to them. We experience time dilation on Earth moving around the sun, and the gravity well of the sun too, but the time dilation compared to, say, an observer on Uranus is negligible. For example, time elapses on Uranus 59.99999997 seconds for every 1 minute on Earth.
EarthInteresting9781 OP t1_jdfevlk wrote
So would you age slower on Uranus versus earth. Or would your body age all the same?
Anonymous-USA t1_jdfgp5l wrote
If you had an identical twin on Earth and Uranus, when the one on Earth reaches 70 yrs old, the twin on Uranus will be 1.1 second younger. Not including the time dilation experienced traveling to Uranus, but let’s say we have a transporter to blink us there.
Exano t1_jdfuwdz wrote
You will always age the same relative to you.
So, assuming you could live on such a massive world, you turning 30 would take the same amount time as here on Earth, so far as how "long" it feels to you.
However if you were to somehow leave and come to earth, you'd find it "older". So like the twin on Uranus example posted here, if you and your clone were born at the same time, black hole you would be "younger" - although - if your clone was now 60 (to your 30) - you'd have "experienced" half as much time as he has.
Sarahquikgo t1_jdgfwtc wrote
Age is just a number ?
LunaticBZ t1_jdij10p wrote
My mind agrees, but my back says it's a big deal.
Raging_Skywalker t1_jdj0y9i wrote
So on intergalactic level it would be a strategic time-advance to be as isolated from gravity sources as possible, right? For example a perhabs planet-sized ship with a highly advanced species leaving its galaxy-cluster to avoid encounters with other species
Anonymous-USA t1_jdjn6pb wrote
What??? I don’t know how you came to that conclusion. The time dilation is basically negligible unless very close to the gravity well, even if there is some residual effect past the event horizon or heliosphere (for a sun). In fact, there may be advantages in energy access closer to a major interstellar object.
So I doubt it would make any difference. Rather, any intergalactic species (even our own) would want to mathematically account for time dilation from both sources — velocity and gravity — when communicating data and positioning. Which we already do ourselves. GPS wouldn’t work without accounting for time dilation. So accounting for it, yes, strategically designing around it, unlikely imo
ExtonGuy t1_jdfce78 wrote
Unless you're within 30 or 40 million kilometers of Sgr A*, the time dilation isn't going to be much at all. For comparison, the radius of Mercury's orbit is 58 million km.
OnlyAstronomyFans t1_jdhmyif wrote
Off topic but I had a black cat named A*. Called him Star. My dad is a nerd who taught me to be a nerd.
robotslendahand t1_jdi6p3m wrote
KilgoreTroutPfc t1_jdg0e5f wrote
Sure but there probably aren’t any planets that close to it. It’s more likely to happen around stellar black holes not galactic black holes.
National_Journalist8 t1_jdgzs82 wrote
The possibilities are endless. As for what I know about Sagittarius A. Yes it most likely has a black hole at its center. However, it is a dwarf galaxy. That is being assimilated. By the out bar of the Milky Way. From which our planet resides. Or is it Sagittarius D? I get them confused. However, that's the case. Does the black hole of Sagittarius being assimilated," Become. Runaway attractor ? Or will it be drawn to the Milky Ways Center?
agaloch2314 t1_jdhbnrs wrote
Just for future reference, the supermassive black hole at the centre of the galaxy is Sagittarius A*, pronounced “Sagittarius A star”. Sagittarius A, without the star, refers to the radio source in its entirety including Sgr A West and Sgr A East.
EarthInteresting9781 OP t1_jdhi7g0 wrote
But it’s a black hole a collapsed star. Why call it a star still?
enderxzebulun t1_jdhp9sk wrote
/star/ is pronouncing the * in the name. The asterisk is a convention denoting its relationship to a "parent" object (Sag. A)
Impressive_Map_4977 t1_jdhz6g8 wrote
Very basically speaking, the gravity from the black hole and the velocity of the orbit around it would result in a *relative* slowing of time by an observer further away.
cheatme1 t1_jdf8nmv wrote
Well it hasn't happened or been explored or tested in any way but these theories make it seem probable everything slows down around a black hole even time.
Aquaticulture t1_jdfbfp1 wrote
Time dilation due to gravity has been explored and tested…
Ivedefected t1_jdfhirh wrote
Even more - GPS satellites experience time dilation relative to Earth (both gravitational and kinetic) which they correct for to provide accurate location data.
cheatme1 t1_jdfqz6i wrote
Somekindofadult said the same thing but yes still appreciate your fact check also
SomeKindOfAdult t1_jdflv3u wrote
Time dilation due to gravity wells has been well tested by satellites in Earth's orbit. They aren't as deep in Earth's gravity well and experience less time dilation. It's very tiny, but measurable.
Even more, specific, the orbit of Mercury is affected by time dilation due to how close to the Sun it is in a very noticeable way. This was a real mystery - people speculated there had to be another planet pulling on it, named Vulcan - until Einstein proposed Relativity as the correct answer.
cheatme1 t1_jdfm2qx wrote
I appreciate this explanation even more you even went into details thanks great fact check
OnlyAstronomyFans t1_jdhncqb wrote
Not to pick on you, but technically you get time dilation any time you speed up relative to what your speed was previous. I think people have been able to prove this experiment with long-haul commercial flights and fantastically accurate clocks.
cheatme1 t1_jdjjtox wrote
You aren't and other people explained
dungisdangit t1_jdf8py5 wrote
You're on a planet orbiting Sagittarius A btw