No. You completely misunderstand what I'm saying. I'm referring to using the direction of the angular momentum of Pluto about Saturn (i.e. the spin angular momentum of Saturn), and then the angular momentum about the sun as a conserved quantity as you seem to be suggesting. It ain't. Since the central force in one situation is from Saturn, and in the tother is the sun.



They're comparable in that they both have about the same relevance to their respective hypotheses (i.e. none).



Where?



Where are you getting the numbers, though? Why is 5 AU not enough of a distance for Uranus to from?



Reread what I wrote, 'cuz clearly you didn't the first time.



As I said, this is all circular.

Ger - I have a question about this Kuiper Belt and Oort Cloud,

Why did this guy argue for a planet X with 30 degree inclination to the ecliptic after studying long period comets? Is the Kuiper Belt a literal belt like the asteroids, i.e., confined enough to constitute a trail of planetary debris or is it much more expansive? Better yet, this Oort Cloud is supposed to form a 360 degree layer like the skin of a basketball. Why don't we see these long period comets coming in from all angles? I know there are some with pretty wild angles but this astronomer I cited concluded that enough of them indicate a 30 degree orbital inclination for planet X.

Ramo - I didn't say it would be easy to calculate, but don't we do it every time we send a rocket to another planet? We can estimate the unknowns by using existing planetary systems, i.e., how fast does Titan orbit Saturn? If released from it's orbit, how far would it travel away from the solar system before being overtaken by the center of gravity? We already know Saturn's equator points to Pluto at perihelion so I'm sure we could figure out what would be required for Pluto to attain it's current orbit after being ejected from Saturn. Pluto looks like it was split in two...

Do it myself eh?

let's see, your objections were that I used Saturns perihelion distance and that I didn't account for Saturns inclination to the ecliptic right?

Since Saturn's inclination to the ecliptic can both work for or against the pointing dependant on when it is checked I'll calculate for the two extremes to get the possible range of effect of Saturns inclination wrt to the ecliptic. This can be done simply by adding saturns inclination to the angle A for one extreme and subtracting it for the other.

To satisfy your complaints about using the Saturns perihelion distance I'll use the mean distance as you claimed to have done.



b = Saturns mean distance from the Sun 1.429 billion km

c = Pluto's distance from the Sun at it's own perihelion : 4.435 billion km

angle A the angle formed by b and c at the Sun (Plutos' oribital inclination either plus or minus Saturns orbital inclination of 2.49 degrees) giving either 19.69 or 14.7 degrees

now using
a^2 = b^2 + c^2 - 2bc cosA
we can obtain 3.126 billion km as the distance from saturn to Plutos' perihelion a when A = 19.69 degrees

-or-

we can obtain 3.074 billion km as the distance from saturn to Plutos' perihelion a when A = 14.70 degrees

using both of these values of a for the Saturn Pluto distance we can compute the angle C formed by sides b and a and subtract this angle C from 180 to calculate the tilt of Saturn if it is 'pointing' at Pluto's perihelion using

c^2 = a^2 + b^2 - 2ab cos C

for A=19.69 we find C = 151.45 degrees giving a tilt for a Saturn pointing at pluto's perihelion of 21.49 degrees.

-or-

for A=14.70 we find C = 158.51 degrees giving a tilt for a Saturn pointing at pluto's perihelion of 28.55 degrees.

Note that I used the mean distance of 1.429 billion for Saturn when solving for either extreme of inclination for Saturns orbit. We now have a possible range of angles that Saturn can point under the circumstances you specified of 21.5 degrees to 28.5 degrees. That's quite a range and that is just adjusting for an inclination of 2.49 degrees in Saturns ecliptic. You may argue I suppose that this means that saturns tilt of 26.8 is in this range but that is meaningless since of the 9 planets 4 of them also have tilts in this range suggesting that Saturns odds of having such a tilt by chance are very good indeed.

Anyway you have to adjust quite a few variables in Saturn and plutos relative positions to make Saturn point at pluto. so remind me again what the meaning of the threads title is? It certainly doesn't look like Saturn points at pluto very often does it?

You also haven't addressed the fact that due to Uranus's nearly 90 degree tilted orbit it and it's rings will 'point' at pluto's perihelion quite frequently. What is that that you think makes Saturns relation to Pluto so obvious?

Ramo - Astronomers looked for planets and moons of planets based on the belief these objects would more likely show up along the equator of the object being orbited. Lo and behold they were right even though they dared use "numerology". Now, if we want to investigate whether or not Pluto was ejected from a planetary orbit, we would look to planets with equators that point to Pluto when it's at perihelion or aphelion. You think the process astronomers used to find all sorts of celestial bodies is meaningless numerology.

In an earlier post.

The solar system, our primary source of evidence.

It is if it formed closer in. It isn't enough if it formed where it did or beyond.

You repeat that like a mantra but don't explain what you mean. Astronomers generally believe the Earth was struck by a Mars sized object 4+ billion years ago. Did they arrive at that conclsuion using circular logic? If what they say is true, it defies reason to conclude this impact had no effect on the proto-earth's orbit. Is that circular? Where in the solar system do we see evidence of such a collision? Yes, you win a prize - the asteroid belt is where we see evidence of such a collision.

Why don't you ever qualify this? Do you not understand that Saturns equator will not be able to 'point' at pluto as you claim when:

1. Saturn is not near the appropriate solstice. When it is near the other solstice it's equator will point directly away from pluto's orbit.

2. Saturn's position on it's inclination isn't just right resulting in a required pointing tilt too close to the extremes of 21.5 degrees or 28.5 degrees.

3. precession of Saturns orbit prevents it's appropriate solstice from lining up with pluto's perihelion at all (this will usually be the case AFAIK)

4. Saturns tilt on it's orbital axis has precessed such that it fails to point at Pluto.


All of the above have to be properly specified for the 'pointing' to occur. Why don't you ever qualify your statement to reflect this? Have you considered checking this out with an orrery? it can be quite enlightening.

since when? Why would pluto's perihelion and aphelion have any significance? Even in the absence of precession (which is never absent but you claim it is negligable on scales of thousands of years with the outer planets) the planets new aphelion and new perihelion would have nothing to do with the old planet. Just look at the solar orbiting satellites we have launched from earth. None of them have perihelions or aphelions that have any special relation to earth's 'ecliptic'. They were all determined by the arbitrary particulars of the manner of their escape from earths gravity dominance. Some had moon fly bys and some were failed interplanetary probes and others were intended to follow a solar polar orbit or what have you but you can't detect any pattern in any of that via their perihelion/aphelion and the ecliptic of the earth.


If the mars sized object and Earth came to share pretty much the same orbit before impact then the orbit would hardly change at all post impact. Astronomers don't picutre some sort of zooming comet style orbit for the impactor because if the impact is too high of energy the earth is so totally disrupted that no moon forms and you instead end up having to reform the earth from a huge ring around the sun. The odds of an impact by such a large object that doesnt share a similar orbit to the earth are also pretty small to begin with.

Don't have time to respond, cuz I'm flying off to Bangladesh in a couple hours, for the next few weeks, so later guys.

Here's an interesting article from The Astronomical Journal discussing how Saturn may have developed it's tilted axis.

and here is an excellent article on chaos and orbital disturbances which should give a good idea as to why we would not expect to see any definitive artifact in pluto or Saturns orbit from which we could assume a past relationship.

Ger - First, thx for doing the calculations but I may have forgot to mention another limitation I used. When I did my calculations I incorporated the ascending nodes of Saturn and Pluto into my figures with the belief they were a clue as to when the ejection occured - where Saturn was wrt the ecliptic (above/below). When I did that I got an angle of ~26 degrees. Unfortunately I can't remember how I used the nodes. Now, having the right tilt only matters if you have the right distance from the sun. Saturn fits into the range because it's at the right distance. The other planets aren't, they're either way too close to the sun or too far away.

"Very often"? Did you see that in the thread's title? All it took is once, the time Pluto was ejected from an orbit around Saturn.

That's because I had to think about that and you're right, Uranus could be a souce. Subtracting Uranus' distance from the sun from Pluto's perihelion and aphelion distances produces a 1/3 ratio and I thought the 1:2 ratio produced by Saturn was a clue. There's just one problem, the final piece to the puzzle - Sitchin's interpretation of the Enuma Elish - has Pluto coming from Saturn. If I can get you to the point of accepting Uranus and Saturn as viable sources for Pluto, maybe you will acknowledge that maybe Sitchin's theory based on mythology may have merit.

nm

The thing is, without even a very primitive model of how such an event could occur, you're talking emptiness. On par with Intelligent Design and Creationism.

Insufficient data. We have absolutely no clue wrt to the hows, wheres, and all pertient events in between.

Uranus, with its obvious disruption of both the planet and its moons, is a much more likely candidate as a source for Pluto.

Ger - Because I pwned you. You came up with 24.1? and were acting like a bigshot and I had to correct a flaw in your calculations and now you've shown I was right. I don't need no stinking qualifier.

I didn't say Saturn's rings point to Pluto now...or in a few years... I'm arguing for an event that occured long ago. Why in the hell do I need a qualifier for that after all this debate?

And? Now that you showed Saturn's rings point to Pluto at perihelion you imply I need to know where Saturn was when the ejection occured? I believe the ejection occured below the ecliptic, but that was based on their ascending nodes and I can't remember what I did to reach that conclusion.

That's oxy-moronic, precession is a 360 degree cycle. If Saturn's rings precess away from pointing to Pluto's perihelion, those rings will precess back.

Until it precesses back.

All of the above is irrelevant, 3 of your 4 points are tied into precession and that's really a circular argument And your other complaint is that Saturn fits easily into the range you found with your calculations. Qualify that

First, I never said that about precession, quote me if you think I did. Precession only means that if Saturn's rings can point to Pluto at perihelion at some point in time, it will again because of the same precession that moved the rings away from Pluto.

What does all that have to do with anything? Were we trying to launch a satellite to simulate an ejection of Pluto from Saturn? No, our goals in launching satellites is for other "particulars".

UR - I'm using the same thought process astronomers used to find all sorts of objects in the solar system - follow the equator or ecliptic. The experts can make the models...

MM - On second thought, Uranus is an unknown because of that disruption. We have no idea what tilt it had before the event that turned it on its side. Pluto would have had to been ejected after Uranus got toppled and not before.