Why does a comet get pushed away by the sun when it gets too close?

In summary, the conversation discusses the comparison of the two body problem to the energy potential of two atoms, with the added factor of the sun and comet not experiencing charge. It also mentions the role of centrifugal force in preventing the comet from falling into the sun. There is also a discussion about the tail of a comet and its movement in relation to the solar wind. It is mentioned that the text may have inaccurately stated that the movement of a meteor away from the sun is similar to the repulsion of two nuclei due to charge.
  • #1
-e^ipi
1
0
This was shown in a textbook about the two body problem, and they compared it to the energy potential of two atoms, but the sun and comet don't experience charge so that 'when it gets too close the nuclei repel each other'.
It mentioned something about centrifugal force, but I don't understand where that comes into play.
Thanks!
 
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  • #2
The comet isn't pushed away at all.

Rather, the sun isn't able to pull it strongly enough to prevent the comet from leaving the system.
 
  • #4
There is a very slight "solar wind" consisting of particles expelled by the sun. That is what causes the lighter particles of a comet's tail to lag behind it. But the effect is far too small to even slow down the comet itself noticably and even the tail only "lags"- it still follows the comet around the sun.
 
  • #5
I haven't checked on this but I was under the impression that the tail of a comet is not so much 'left behind' as actively 'blown away' by the solar wind?

The result being that it mostly points away from the sun rather than along the path of the comet.
 
  • #6
You should be clear to distinguish between the ion tail and the dust tail. The ion tail points directly away from the sun while the dust trail rather roughly traces the orbital motion.
 
  • #7
I doubt the text stated that the way in which a Meteor moves away from the Sun is similar to the way nuclei repel each other. The two nuclei repel each other due to charge but the reason why the comet moves away from the sun is because as it moves towards the sun it converts potienial energy into kinetic energy causing it to move faster giving it the velocity and centrifugal force (<there you go) to avoid falling into the sun.

Hope this helps :)
 
  • #8
-e^ipi said:
they compared it to the energy potential of two atoms, ... 'when it gets too close the nuclei repel each other'.Thanks!

Sounds like a thoroughly bad book to me, throw it away.
 

1. Why does a comet get pushed away by the sun?

Comets are made up of ice, dust, and gases. When they get close to the sun, the intense heat causes the ice to melt and the gases to expand. This creates a force called solar wind, which pushes the comet away from the sun.

2. What happens when a comet gets too close to the sun?

When a comet gets too close to the sun, it experiences high temperatures that cause it to melt and release gas and dust. This creates a tail that points away from the sun due to the force of solar wind.

3. How close can a comet get to the sun without being pushed away?

The distance a comet can get to the sun without being pushed away depends on its size and composition. Smaller comets may not survive getting as close as larger comets. The average distance is about 3 million miles from the sun's surface.

4. Can the sun's gravity affect a comet's path?

Yes, the sun's gravity can affect a comet's path. As the comet gets closer to the sun, its orbit may change due to the pull of the sun's gravity. This can cause the comet to have a more elliptical orbit or even be ejected from the solar system.

5. How does a comet's composition affect its interaction with the sun?

A comet's composition can greatly affect its interaction with the sun. Comets with denser compositions, such as more rocky material, may not be affected as much by the sun's heat and solar wind. However, comets with more ice and gas can experience significant changes in their orbits and even break apart when they get too close to the sun.

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