Do objects within a galaxy rotate in the same direction as the galxy itself?

In summary: I think I understand what you are saying. In summary, the rotation of objects within the galaxy is inconsistent and there is no alignment of axes.
  • #1
Lino
309
4
Hi, I have been trying to understand the nature of rotating objects within a galaxy, but with limited sucess. I am trying to understand if the rotation of objects (for example solar systems / stars / black holes within the Milkyway galaxy) are generally consistent with the rotation of the galaxy itself? (i.e. do things generally rotate in the same direction?) And if the answer to this is positive, is it "generally" or "almost always" or "always"?

Thanking you in anticipation.

Regards,

Noel.
 
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  • #2
The rotation of the galaxy is defined by averaging the rotation of the stars, etc. within the galaxy. The rotation cannot be defined independently.
 
  • #3
Thanks mathman. I think I understand, but can I ask the same question in a different way? Is the orbit of planets in our solar system in the same direction as the overall rotation of the Milkyway, & is the orbit of other planets (in other solar systems - but still in the Milkyway) in the same direction (as the Milkyway).

Regards,

Noel.
 
  • #4
(Maybe I should have phrased the question as "is the spin of the star generally in the same direction as the rotation of the galaxy?")
 
  • #5
The answer is no. There is no alignment of axes.

The plane of the solar system is TILTED 60 degrees from the plane of the Galaxy.

I don't know much definite about the orientation of other planet systems. But from what I've read nobody EXPECTS them to have their axes aligned in any special direction. The expectation seems to be that it's basically random.

Also the SENSE of the rotation is not necessarily consistent.

Roughly speaking the Solar System N pole (instead of point straight out of the plane of the galaxy, perpendicular "up") is tilted 60 degrees towards the direction that the Sun and her planets are going.
Now the sense in which the Sun and most of the planets are rotating follows a RIGHT HAND FIST rule, with your thumb in the N pole direction. If you look down on your thumb the fingers are going counterclockwise and that is how the Earth is rotating and also how the Earth is orbiting, and the sun is rotating, etc.

But if you tried to align the solarsystem with the galaxy by tilting the solarsystem axis 60 degrees back upright, you would find that even though the axes were parallel the galaxy would be revolving according to a LEFT HAND fist rule. If some aliens would take you on their ship far far above the Earth's north pole and you looked back you would see most of the stuff in the solar system rotating and orbiting counterclockwise, but you would see the sun and other stars orbiting the galactic center CLOCKWISE.

So there is a strong inconsistency. One has to suspect it's random uncorrelated except for nearby things.
 
Last edited:
  • #6
Thanks Marcus.
 

1. Do all objects within a galaxy rotate in the same direction?

Yes, in the majority of cases, all objects within a galaxy rotate in the same direction as the galaxy itself. This is due to the conservation of angular momentum, where the initial motion of the gas and dust that formed the galaxy continues to influence the rotation of all objects within it.

2. Are there any exceptions to this rule?

Yes, there are some rare cases where objects within a galaxy may rotate in a different direction. This can occur when two galaxies merge, causing disruptions in the rotation patterns of objects. Additionally, some small satellite galaxies may rotate in a different direction due to interactions with the larger galaxy they orbit.

3. How do scientists determine the direction of rotation for objects within a galaxy?

Scientists use various techniques such as spectroscopy, which measures the Doppler shift of light from objects within a galaxy. By analyzing the direction and speed of this shift, scientists can determine the direction of rotation for objects within a galaxy.

4. Can the rotation of a galaxy change over time?

Yes, a galaxy's rotation can change over time due to interactions with other galaxies or the presence of dark matter. These external influences can cause disruptions in the rotation of objects within a galaxy, altering its overall rotation direction.

5. Does the rotation direction of a galaxy have any impact on its evolution?

Yes, the rotation direction of a galaxy can play a role in its evolution. For example, galaxies that rotate in a clockwise direction tend to have more stars and a higher rate of star formation, while those that rotate counterclockwise may have more gas and dust. This can impact the overall structure and dynamics of a galaxy.

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