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Originally posted by Park Avenue
Ah yeah. Oxford reject vs UoW Success.
Ah yeah. Oxford reject vs UoW Success.
That's not even remotely true 
Do remind me, do I still earn twice as much as you do?
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That's not even remotely true Do remind me, do I still earn twice as much as you do?
Speaking of Erith:
"It's not twinned with anywhere, but it does have a suicide pact with Dagenham" - Linda Smith -
2:1 vs 2:2 ? Suppose a Desmond is a real flyer in the job market
www.my-piano.blogspotComment
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You forget about the masters and all the experience though. It's never posed me too much difficulty. Tell me, do I still earn twice as much as you do?Originally posted by Park Avenue
2:1 vs 2:2 ? Suppose a Desmond is a real flyer in the job market
Speaking of Erith:
"It's not twinned with anywhere, but it does have a suicide pact with Dagenham" - Linda SmithComment
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PH Spink KH Winston
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Does accurate and Turkish belong in the same post?Originally posted by Whoha
theres some speculation that atlantis is under the antarctic sheet. some Turkish admiral had accurate maps of the coastline of the land mass under the 3 mile ice sheets 500 years ago, or so I've been led to believe.
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The Earth has been struck by large objects, are you suggesting the Earth did not form in its current orbit? And I'd still like to know what you think qualifies as a significant disruption of Earth's orbit because right now we're debating your definition and you wont give it, i.e., your argument is pointless. Besides, when I speculated on what would happen to the ice shelf if a large object passed near the poles, I was not arguing there would be no effect on Earth's orbit. You just made that up to argue against...It's not scientifically possible for a large object to disrupt the tides without also more forcefully disrupting the Earth's orbit. Gravitational forces are inversely proportional to the square of the distance, but tidal forces are inversely proportional to the cube of the distance. That's why the Moon has a bigger effect on the tides than the Sun, despite the Sun having more gravitational influence on the Earth.Comment
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are you suggesting the Earth did not form in its current orbit
Yes. Or at least he should be.12-17-10 Mohamed Bouazizi NEVER FORGET
Stadtluft Macht Frei
Killing it is the new killing it
Ultima Ratio RegumComment
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I was not arguing there would be no effect on Earth's orbit
Unfortunately for you, there is a supreme lack of evidence of any relatively recent significant perturbations in the Earth's orbit.12-17-10 Mohamed Bouazizi NEVER FORGET
Stadtluft Macht Frei
Killing it is the new killing it
Ultima Ratio RegumComment
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I was speculating on what would happen, not what did happen.
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So what does the evidence suggest about where (or how far from the sun) the Earth formed?Yes. Or at least he should be.Comment
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First off, due to tidal locking and slowly reducing mass of the Sun the Earth has moved significantly outward from its initial mean distance.
Secondly, there have been some massive perturbations in the past which are probably the source of the maximal eccentricity of the Earth's orvit. The largest of these is the impact which ejected the mass which is now called our Moon. Direct evidence for the Earth's initial orbit is lacking due to the inchoate nature of planetary bodies in our Solar System at that time.
Any event which had occured much more recently than that (say, in paleological time) would have left huge marks on the Earth's orbit.12-17-10 Mohamed Bouazizi NEVER FORGET
Stadtluft Macht Frei
Killing it is the new killing it
Ultima Ratio RegumComment
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Given "2", how do you know the Earth moved outward from its initial distance? It may have moved outward after the orbit became more stable, after the major collisions, but I'm interested in where it was before the collisions. And this major collision, it would have left a ring of debris orbiting the sun, true? Is there evidence of such a ring of debris orbiting the sun?First off, due to tidal locking and slowly reducing mass of the Sun the Earth has moved significantly outward from its initial mean distance.
Secondly, there have been some massive perturbations in the past which are probably the source of the maximal eccentricity of the Earth's orvit. The largest of these is the impact which ejected the mass which is now called our Moon. Direct evidence for the Earth's initial orbit is lacking due to the inchoate nature of planetary bodies in our Solar System at that time.
Dont the vast majority of ring systems and satellites follow equatorial orbits? Why doesn't the moon if it formed from a debris ring resulting from a collision between Earth and another body? Why did the moon suffer such severe damage on the side facing us now and not the other? The moon is out of balance with the heavier side facing us, just as if it was struck by objects bearing heavier materials. And doesn't the evidence suggest the moon suffered major impacts at roughly the time the Earth was struck? I thought the main collision(s) occured 3,9 to 4.1 billion years ago followed by several hundred million years of lava outpouring to form the maria.Any event which had occured much more recently than that (say, in paleological time) would have left huge marks on the Earth's orbit.Comment
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A significant orbital change in this context would be one that induces severe climatic changes which basically dwarf any 'tidal' effects.Originally posted by Berzerker
The Earth has been struck by large objects, are you suggesting the Earth did not form in its current orbit? And I'd still like to know what you think qualifies as a significant disruption of Earth's orbit because right now we're debating your definition and you wont give it, i.e., your argument is pointless. Besides, when I speculated on what would happen to the ice shelf if a large object passed near the poles, I was not arguing there would be no effect on Earth's orbit. You just made that up to argue against...
I'm curious as to exactly how this tide-induced global warming of yours actually works. A strong tide would probably just go around Antarctica, rather than breaking up the ice sheet.Comment
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Originally posted by Berzerker
Given "2", how do you know the Earth moved outward from its initial distance? It may have moved outward after the orbit became more stable, after the major collisions, but I'm interested in where it was before the collisions.
We'll never know. But the Earth is moving outwards now. And that won't have changed.
And this major collision, it would have left a ring of debris orbiting the sun, true? Is there evidence of such a ring of debris orbiting the sun?
Most of the debris fell back to Earth. Most of what didn't fall back down, went into orbit around the Earth, eventually coalescing into the moon. That which escaped our orbit went in every freaking direction several billion years ago. Anything which remained in our orbit would have been swept up eventually. There are plenty of other Earth-orbit crossing asteroids that may have resulted from the impact.
You're really embaressing yourself here.
Dont the vast majority of ring systems and satellites follow equatorial orbits?
All ring systems are temporary. The Jovian planetary rings are decaying or being destroyed by various moons.
Why doesn't the moon if it formed from a debris ring resulting from a collision between Earth and another body?
Because we didn't get hit directly on the ecliptic?Christianity: The belief that a cosmic Jewish Zombie who was his own father can make you live forever if you symbolically eat his flesh and telepathically tell him you accept him as your master, so he can remove an evil force from your soul that is present in humanity because a rib-woman was convinced by a talking snake to eat from a magical tree...Comment
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Perhaps (you got proof?), but I was citing one possible consequence of such an object passing by and you jumped in to "refute" me by pointing how the climate would be effected in other ways resulting from the near miss? So what? :roilleyes:A significant orbital change in this context would be one that induces severe climatic changes which basically dwarf any 'tidal' effects.
Tide induced global warming? Ice sheet? Where did I say all that? And where did I say this object would not effect Earth's orbit? You have a habit of making stuff up and attributing it to me.I'm curious as to exactly how this tide-induced global warming of yours actually works. A strong tide would probably just go around Antarctica, rather than breaking up the ice sheet.Comment
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