Posted on 05/22/2016 6:39:00 PM PDT by 2ndDivisionVet
There is only one logical answer to this question. Prepare a ship immediately for our Dear Leader to ride in. He will find the answer in short order.
My bet that it’s a binary star system with one of the stars being a captured black hole. That explains the data quite easily.
The electric universe people would probably provide a simple comparison to a flickering lightbulb.
Is that*
If they live there, are they still considered aliens?
Yeah, the Jenolen found out about it the hard way..............
This is a silly article.
They use Jupiter as some sort of argument against very large planets.
We have what, 9 in our solar system. Just nine. Jupiter is the largest here. That is not a statistically valid sample size at all.
The start has a very large planet orbiting it. Simple answer. Very, very big.
These folks know so little about the universe outside of our solar system - their speculation is kind of futile.
“We have what, 9 in our solar system. Just nine. Jupiter is the largest here. That is not a statistically valid sample size at all.”
They don’t make the judgement that planets can’t get much bigger than Jupiter based simply on the knowledge of the planets in our solar system. It’s based on the laws of gravity. Once a planet gets past a certain mass, gravity will cause the matter to compress until nuclear reactions start and it becomes a star. If it was a star passing in front of this star, then the star would get brighter, not dimmer, so that can safely be ruled out.
Maybe it’s not a planet. Maybe it’s a space station.
True, only a few of us have made the long journey...
out and back.
Don’t look now but we’re not like the others.
I didn’t tell him about the Manta bats,
I figured he’d see them soon enough.
How big does a planet get tone before its internal processes jumpstarts it into a star?
An increase in mass of a gas giant starting with the size of Jupiter will have little or no influence on its diameter. Something to do with electron degeneracy. Get up to 13 Jovian masses, and you have a brown dwarf where you might get ignition of deuterium (short lived). If the star is that variable (and not a red dwarf), this could be an end stage where the star is at least about to exit the Main Sequence.
65 Jovian masses in order to become a red dwarf in the Main Sequence. Roughly 0.075 solar masses.
Michelles a## may have gotten in the way of the telescope
That’s exactly what I was thinking.
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