Does the Milky Way orbit around anything?What do we know about the lifecycle of the Milky Way (or any other spiral galaxy)?If galaxies are moving away from each other then why are the Milky Way and Andromeda galaxy coming towards each other?What will happen to life on Earth when the Andromeda and Milky Way galaxies collide?Where does the Milky Way end?Fate of the Spiral Arms of the Milky Way and AndromedaConcerning fate of Milky Way GalaxyHow much overlap will the Andromeda galaxy and the Milky Way have when they collide?Available data on the Milky way around 1920Does the Sun orbit the Milky way in a (kind of) flat or inclined orbit or more of a sine wave?What would be the outcome for life in our galaxy if the merger of the Milky Way and Andromeda creates a Quasar?

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Does the Milky Way orbit around anything?


What do we know about the lifecycle of the Milky Way (or any other spiral galaxy)?If galaxies are moving away from each other then why are the Milky Way and Andromeda galaxy coming towards each other?What will happen to life on Earth when the Andromeda and Milky Way galaxies collide?Where does the Milky Way end?Fate of the Spiral Arms of the Milky Way and AndromedaConcerning fate of Milky Way GalaxyHow much overlap will the Andromeda galaxy and the Milky Way have when they collide?Available data on the Milky way around 1920Does the Sun orbit the Milky way in a (kind of) flat or inclined orbit or more of a sine wave?What would be the outcome for life in our galaxy if the merger of the Milky Way and Andromeda creates a Quasar?






.everyoneloves__top-leaderboard:empty,.everyoneloves__mid-leaderboard:empty,.everyoneloves__bot-mid-leaderboard:empty margin-bottom:0;








6












$begingroup$


We know most of the objects in the Universe have a spherical or elliptical shape. The object which has less mass and gravitational pull orbits around the nearest object with more mass and gravitational pull. For example:



  1. Moon orbits around Earth

  2. Earth orbits around Sun

  3. Sun orbits around Sagittarius A* which is the center of Milky Way.

Thus, is the Milky Way orbiting around some object or perhaps Black Hole?



I know that the Milky Way is going towards Andromeda as they are attracting each other and they will collide with each other after 3 billion years to 6 billion years. But it is possible that the Milky way is orbiting around some object at the same time? Perhaps both galaxies are present in a group of galaxies which is orbiting around some object.



If the Milky Way is not orbiting around some object then is there any proof found by the scientists for that?










share|improve this question









New contributor



Zeeshan Ahmad Khalil is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.






$endgroup$


















    6












    $begingroup$


    We know most of the objects in the Universe have a spherical or elliptical shape. The object which has less mass and gravitational pull orbits around the nearest object with more mass and gravitational pull. For example:



    1. Moon orbits around Earth

    2. Earth orbits around Sun

    3. Sun orbits around Sagittarius A* which is the center of Milky Way.

    Thus, is the Milky Way orbiting around some object or perhaps Black Hole?



    I know that the Milky Way is going towards Andromeda as they are attracting each other and they will collide with each other after 3 billion years to 6 billion years. But it is possible that the Milky way is orbiting around some object at the same time? Perhaps both galaxies are present in a group of galaxies which is orbiting around some object.



    If the Milky Way is not orbiting around some object then is there any proof found by the scientists for that?










    share|improve this question









    New contributor



    Zeeshan Ahmad Khalil is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
    Check out our Code of Conduct.






    $endgroup$














      6












      6








      6


      1



      $begingroup$


      We know most of the objects in the Universe have a spherical or elliptical shape. The object which has less mass and gravitational pull orbits around the nearest object with more mass and gravitational pull. For example:



      1. Moon orbits around Earth

      2. Earth orbits around Sun

      3. Sun orbits around Sagittarius A* which is the center of Milky Way.

      Thus, is the Milky Way orbiting around some object or perhaps Black Hole?



      I know that the Milky Way is going towards Andromeda as they are attracting each other and they will collide with each other after 3 billion years to 6 billion years. But it is possible that the Milky way is orbiting around some object at the same time? Perhaps both galaxies are present in a group of galaxies which is orbiting around some object.



      If the Milky Way is not orbiting around some object then is there any proof found by the scientists for that?










      share|improve this question









      New contributor



      Zeeshan Ahmad Khalil is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
      Check out our Code of Conduct.






      $endgroup$




      We know most of the objects in the Universe have a spherical or elliptical shape. The object which has less mass and gravitational pull orbits around the nearest object with more mass and gravitational pull. For example:



      1. Moon orbits around Earth

      2. Earth orbits around Sun

      3. Sun orbits around Sagittarius A* which is the center of Milky Way.

      Thus, is the Milky Way orbiting around some object or perhaps Black Hole?



      I know that the Milky Way is going towards Andromeda as they are attracting each other and they will collide with each other after 3 billion years to 6 billion years. But it is possible that the Milky way is orbiting around some object at the same time? Perhaps both galaxies are present in a group of galaxies which is orbiting around some object.



      If the Milky Way is not orbiting around some object then is there any proof found by the scientists for that?







      orbit galaxy milky-way






      share|improve this question









      New contributor



      Zeeshan Ahmad Khalil is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
      Check out our Code of Conduct.










      share|improve this question









      New contributor



      Zeeshan Ahmad Khalil is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
      Check out our Code of Conduct.








      share|improve this question




      share|improve this question








      edited 1 hour ago









      Chappo

      1,0142 gold badges6 silver badges21 bronze badges




      1,0142 gold badges6 silver badges21 bronze badges






      New contributor



      Zeeshan Ahmad Khalil is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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      asked 18 hours ago









      Zeeshan Ahmad KhalilZeeshan Ahmad Khalil

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      Check out our Code of Conduct.






















          1 Answer
          1






          active

          oldest

          votes


















          13












          $begingroup$


          The object which has less mass and gravitational pull orbits around the nearest object with more mass and gravitational pull.




          Actually, both the heavier and the lighter object orbit around their common center of mass. It's just that the heavier object doesn't move much (has a tiny orbit), while the lighter object moves a lot (has a wide orbit).



          E.g. our Sun actually orbits the center of mass of the whole solar system, but that motion is tiny, it barely budges.



          In the case of a double star, where both partners have about the same mass, you can clearly see how both are making similar orbits around their common mass center.




          Sun Orbits Around Sagittarius A* which us center of Milky Way.




          With galaxies, including ours, it's a little different.



          There is no super-heavy thing at the center, around which everything else is orbiting. Not even the very large black hole at the center of our galaxy is heavy enough for that.



          Rather, galaxies are clumps of matter that create a common gravitational field. Stars, and everything else, are trapped in this common field and orbit around the common center of mass.




          So the question is that is that is Milky Way is orbiting around some object or perhaps Black Hole.




          Same idea. There is no single point-object nearby massive enough for our galaxy to "orbit" around it.



          Our galaxy, along with Andromeda, and a handful of other galaxies, are bound together in what is known as the Local Group. Each galaxy is moving within the common gravitational field of the whole group. The Local Group has a diameter of about 10 million light-years.



          The Local Group is part of a larger structure, the Virgo Supercluster, which is about 100 million light-years in diameter and has at least 100 galaxies. However, the Virgo Supercluster is more "loose" - it is not gravitationally bound together.






          share|improve this answer











          $endgroup$












          • $begingroup$
            It's probably worth pointing out that the barycenter of the solar system, due to the usual mass distribution of the planets and everything else, is typically inside the sun.
            $endgroup$
            – chepner
            6 hours ago






          • 4




            $begingroup$
            @chepner Wikipedia has diagrams of the solar system barycentre relative to the Sun here, for 1945-1995 and 2000-2050. It's hard to tell from those diagrams, but I think the barycentre is outside of the Sun at least 50% of the time. It's been outside since mid 2016 and will remain so until early 2027.
            $endgroup$
            – PM 2Ring
            5 hours ago













          Your Answer








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          1 Answer
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          1 Answer
          1






          active

          oldest

          votes









          active

          oldest

          votes






          active

          oldest

          votes









          13












          $begingroup$


          The object which has less mass and gravitational pull orbits around the nearest object with more mass and gravitational pull.




          Actually, both the heavier and the lighter object orbit around their common center of mass. It's just that the heavier object doesn't move much (has a tiny orbit), while the lighter object moves a lot (has a wide orbit).



          E.g. our Sun actually orbits the center of mass of the whole solar system, but that motion is tiny, it barely budges.



          In the case of a double star, where both partners have about the same mass, you can clearly see how both are making similar orbits around their common mass center.




          Sun Orbits Around Sagittarius A* which us center of Milky Way.




          With galaxies, including ours, it's a little different.



          There is no super-heavy thing at the center, around which everything else is orbiting. Not even the very large black hole at the center of our galaxy is heavy enough for that.



          Rather, galaxies are clumps of matter that create a common gravitational field. Stars, and everything else, are trapped in this common field and orbit around the common center of mass.




          So the question is that is that is Milky Way is orbiting around some object or perhaps Black Hole.




          Same idea. There is no single point-object nearby massive enough for our galaxy to "orbit" around it.



          Our galaxy, along with Andromeda, and a handful of other galaxies, are bound together in what is known as the Local Group. Each galaxy is moving within the common gravitational field of the whole group. The Local Group has a diameter of about 10 million light-years.



          The Local Group is part of a larger structure, the Virgo Supercluster, which is about 100 million light-years in diameter and has at least 100 galaxies. However, the Virgo Supercluster is more "loose" - it is not gravitationally bound together.






          share|improve this answer











          $endgroup$












          • $begingroup$
            It's probably worth pointing out that the barycenter of the solar system, due to the usual mass distribution of the planets and everything else, is typically inside the sun.
            $endgroup$
            – chepner
            6 hours ago






          • 4




            $begingroup$
            @chepner Wikipedia has diagrams of the solar system barycentre relative to the Sun here, for 1945-1995 and 2000-2050. It's hard to tell from those diagrams, but I think the barycentre is outside of the Sun at least 50% of the time. It's been outside since mid 2016 and will remain so until early 2027.
            $endgroup$
            – PM 2Ring
            5 hours ago















          13












          $begingroup$


          The object which has less mass and gravitational pull orbits around the nearest object with more mass and gravitational pull.




          Actually, both the heavier and the lighter object orbit around their common center of mass. It's just that the heavier object doesn't move much (has a tiny orbit), while the lighter object moves a lot (has a wide orbit).



          E.g. our Sun actually orbits the center of mass of the whole solar system, but that motion is tiny, it barely budges.



          In the case of a double star, where both partners have about the same mass, you can clearly see how both are making similar orbits around their common mass center.




          Sun Orbits Around Sagittarius A* which us center of Milky Way.




          With galaxies, including ours, it's a little different.



          There is no super-heavy thing at the center, around which everything else is orbiting. Not even the very large black hole at the center of our galaxy is heavy enough for that.



          Rather, galaxies are clumps of matter that create a common gravitational field. Stars, and everything else, are trapped in this common field and orbit around the common center of mass.




          So the question is that is that is Milky Way is orbiting around some object or perhaps Black Hole.




          Same idea. There is no single point-object nearby massive enough for our galaxy to "orbit" around it.



          Our galaxy, along with Andromeda, and a handful of other galaxies, are bound together in what is known as the Local Group. Each galaxy is moving within the common gravitational field of the whole group. The Local Group has a diameter of about 10 million light-years.



          The Local Group is part of a larger structure, the Virgo Supercluster, which is about 100 million light-years in diameter and has at least 100 galaxies. However, the Virgo Supercluster is more "loose" - it is not gravitationally bound together.






          share|improve this answer











          $endgroup$












          • $begingroup$
            It's probably worth pointing out that the barycenter of the solar system, due to the usual mass distribution of the planets and everything else, is typically inside the sun.
            $endgroup$
            – chepner
            6 hours ago






          • 4




            $begingroup$
            @chepner Wikipedia has diagrams of the solar system barycentre relative to the Sun here, for 1945-1995 and 2000-2050. It's hard to tell from those diagrams, but I think the barycentre is outside of the Sun at least 50% of the time. It's been outside since mid 2016 and will remain so until early 2027.
            $endgroup$
            – PM 2Ring
            5 hours ago













          13












          13








          13





          $begingroup$


          The object which has less mass and gravitational pull orbits around the nearest object with more mass and gravitational pull.




          Actually, both the heavier and the lighter object orbit around their common center of mass. It's just that the heavier object doesn't move much (has a tiny orbit), while the lighter object moves a lot (has a wide orbit).



          E.g. our Sun actually orbits the center of mass of the whole solar system, but that motion is tiny, it barely budges.



          In the case of a double star, where both partners have about the same mass, you can clearly see how both are making similar orbits around their common mass center.




          Sun Orbits Around Sagittarius A* which us center of Milky Way.




          With galaxies, including ours, it's a little different.



          There is no super-heavy thing at the center, around which everything else is orbiting. Not even the very large black hole at the center of our galaxy is heavy enough for that.



          Rather, galaxies are clumps of matter that create a common gravitational field. Stars, and everything else, are trapped in this common field and orbit around the common center of mass.




          So the question is that is that is Milky Way is orbiting around some object or perhaps Black Hole.




          Same idea. There is no single point-object nearby massive enough for our galaxy to "orbit" around it.



          Our galaxy, along with Andromeda, and a handful of other galaxies, are bound together in what is known as the Local Group. Each galaxy is moving within the common gravitational field of the whole group. The Local Group has a diameter of about 10 million light-years.



          The Local Group is part of a larger structure, the Virgo Supercluster, which is about 100 million light-years in diameter and has at least 100 galaxies. However, the Virgo Supercluster is more "loose" - it is not gravitationally bound together.






          share|improve this answer











          $endgroup$




          The object which has less mass and gravitational pull orbits around the nearest object with more mass and gravitational pull.




          Actually, both the heavier and the lighter object orbit around their common center of mass. It's just that the heavier object doesn't move much (has a tiny orbit), while the lighter object moves a lot (has a wide orbit).



          E.g. our Sun actually orbits the center of mass of the whole solar system, but that motion is tiny, it barely budges.



          In the case of a double star, where both partners have about the same mass, you can clearly see how both are making similar orbits around their common mass center.




          Sun Orbits Around Sagittarius A* which us center of Milky Way.




          With galaxies, including ours, it's a little different.



          There is no super-heavy thing at the center, around which everything else is orbiting. Not even the very large black hole at the center of our galaxy is heavy enough for that.



          Rather, galaxies are clumps of matter that create a common gravitational field. Stars, and everything else, are trapped in this common field and orbit around the common center of mass.




          So the question is that is that is Milky Way is orbiting around some object or perhaps Black Hole.




          Same idea. There is no single point-object nearby massive enough for our galaxy to "orbit" around it.



          Our galaxy, along with Andromeda, and a handful of other galaxies, are bound together in what is known as the Local Group. Each galaxy is moving within the common gravitational field of the whole group. The Local Group has a diameter of about 10 million light-years.



          The Local Group is part of a larger structure, the Virgo Supercluster, which is about 100 million light-years in diameter and has at least 100 galaxies. However, the Virgo Supercluster is more "loose" - it is not gravitationally bound together.







          share|improve this answer














          share|improve this answer



          share|improve this answer








          edited 11 hours ago

























          answered 11 hours ago









          Florin AndreiFlorin Andrei

          15k1 gold badge35 silver badges53 bronze badges




          15k1 gold badge35 silver badges53 bronze badges











          • $begingroup$
            It's probably worth pointing out that the barycenter of the solar system, due to the usual mass distribution of the planets and everything else, is typically inside the sun.
            $endgroup$
            – chepner
            6 hours ago






          • 4




            $begingroup$
            @chepner Wikipedia has diagrams of the solar system barycentre relative to the Sun here, for 1945-1995 and 2000-2050. It's hard to tell from those diagrams, but I think the barycentre is outside of the Sun at least 50% of the time. It's been outside since mid 2016 and will remain so until early 2027.
            $endgroup$
            – PM 2Ring
            5 hours ago
















          • $begingroup$
            It's probably worth pointing out that the barycenter of the solar system, due to the usual mass distribution of the planets and everything else, is typically inside the sun.
            $endgroup$
            – chepner
            6 hours ago






          • 4




            $begingroup$
            @chepner Wikipedia has diagrams of the solar system barycentre relative to the Sun here, for 1945-1995 and 2000-2050. It's hard to tell from those diagrams, but I think the barycentre is outside of the Sun at least 50% of the time. It's been outside since mid 2016 and will remain so until early 2027.
            $endgroup$
            – PM 2Ring
            5 hours ago















          $begingroup$
          It's probably worth pointing out that the barycenter of the solar system, due to the usual mass distribution of the planets and everything else, is typically inside the sun.
          $endgroup$
          – chepner
          6 hours ago




          $begingroup$
          It's probably worth pointing out that the barycenter of the solar system, due to the usual mass distribution of the planets and everything else, is typically inside the sun.
          $endgroup$
          – chepner
          6 hours ago




          4




          4




          $begingroup$
          @chepner Wikipedia has diagrams of the solar system barycentre relative to the Sun here, for 1945-1995 and 2000-2050. It's hard to tell from those diagrams, but I think the barycentre is outside of the Sun at least 50% of the time. It's been outside since mid 2016 and will remain so until early 2027.
          $endgroup$
          – PM 2Ring
          5 hours ago




          $begingroup$
          @chepner Wikipedia has diagrams of the solar system barycentre relative to the Sun here, for 1945-1995 and 2000-2050. It's hard to tell from those diagrams, but I think the barycentre is outside of the Sun at least 50% of the time. It's been outside since mid 2016 and will remain so until early 2027.
          $endgroup$
          – PM 2Ring
          5 hours ago










          Zeeshan Ahmad Khalil is a new contributor. Be nice, and check out our Code of Conduct.









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