Slower rotation curves at centre

In summary, the rotation velocity of stars or gas rotating about their galactic centre remains fairly constant as the distance from the galactic centre increases. However, as the radius approaches the centre the rotation velocity drops off. This is most likely due to the presence of a massive black hole at the centre of the galaxy.
  • #1
Zman
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On galaxy rotation curves, the velocities of stars (or gas) rotating about their galactic centre remain fairly constant as the distance from the galactic centre increases.

But these rotation curves show a drop in rotation velocity towards the centre of the galaxy.

http://astro.berkeley.edu/~mwhite/darkmatter/rotcurve.html"

I accept that at the centre the rotation velocity must be zero but just out from the centre, Kepler’s third law predicts that the velocities should be greatest and then fall off with increasing distance.

Does this velocity profile exist because the centre of galaxies up to about 6kpc (in the hyperlinked curve) are a bit like a solid mass?
 
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  • #2
Galactic rotation curves are determined by the distribution of mass throughout the galaxy.

Kepler's laws were derived empirically for the solar system where nearly all the mass is in the centre, in the Sun.

To obtain the typical galactic rotation curve, where for a large proportion of the radial distance the rotation velocity remains fairly constant, you need a lot of mass outside the visible galactic disk. This is one of the reasons it is believed galactic haloes contain a lot of Dark Matter.

As the radius approaches the centre you are leaving more and more mass outside that radius and the rotational velocity drops off, however often very near the centre it often starts to increase again indicating that there is often a large mass at the centre itself, most probably a massive Black Hole.

I hope this helps.

Garth
 
  • #3
Hi Garth,

When the mass of a galaxy is worked out from the centre to a given radius r, the velocity of rotation is determined at that radius. Then using Kepler’s 3rd law, the inner mass can be determined. The outer mass (beyond the radius r) seems to be ignored.

Are you saying that near the centre of a galaxy where there is a higher density of mass that the above method is not valid?
 
  • #4
Well, first it is the rotation velocity that is measured, using the slope of the red shift across the galactic disc as presented (projected) onto our celestial sphere.

Then the mass within that orbit can be calculated. If the outer mass is spherically distributed, symmetrically about the galactic centre the contributions from opposite sectors cancel themselves out and they can be ignored.

However, if they are not spherically distributed then they have to be taken into account, this is the case with real galaxies.

The actual Galaxy rotation curve is the data on which a model of the mass distribution has to be constructed.

Garth
 

1. What is a slower rotation curve at the center?

A slower rotation curve at the center refers to the phenomenon observed in galaxies where the rotational speed of stars and gas at the center of the galaxy decreases as you move towards the outer regions.

2. Why is a slower rotation curve at the center important?

A slower rotation curve at the center is important because it challenges our understanding of the distribution of mass in galaxies. According to Newton's laws of motion, the rotational speed of objects should decrease as you move away from the center of mass. However, the slower rotation curve at the center suggests the presence of unseen mass, also known as dark matter.

3. How is a slower rotation curve at the center measured?

A slower rotation curve at the center is measured by observing the rotational speeds of stars and gas in a galaxy using telescopes. This data is then plotted on a graph, known as a rotation curve, which shows the rotational speed at different distances from the center of the galaxy.

4. What causes a slower rotation curve at the center?

The most widely accepted explanation for a slower rotation curve at the center is the presence of dark matter. This invisible matter exerts a gravitational pull on stars and gas, causing them to rotate faster than expected at the outer regions of the galaxy. This compensates for the slower rotation curve at the center and keeps the galaxy from flying apart.

5. Are there any alternative explanations for a slower rotation curve at the center?

There have been alternative explanations proposed for a slower rotation curve at the center, such as modifications to the laws of gravity. However, these theories have not been able to fully explain the observations and are not widely accepted among scientists.

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