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Formation of Solar Systems
Scientists think the drifting hydrogen atoms somehow come together and form stars and planets. That is not what a gas does. Gases dissipate. Try again, scientists.
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Formation of Solar Systems
"Mark Earnest" wrote in message
... Scientists think the drifting hydrogen atoms somehow come together and form stars and planets. That is not what a gas does. Gases dissipate. Try again, scientists. *** So how do you think it happened ??? right after the BB, the Universe was composed of about 75% Hydrogen, 23% Helium and a smattering of other gases. Astronauts on the ISS put salt into a zip lock bag and much to their surprise, it coalesced into lumps in a very short time. Feel free to substitute the word "salt" with the word "hydrogen" . You really must have sucked at Physics ... |
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Formation of Solar Systems
On Friday, September 29, 2017 at 1:59:58 PM UTC-5, Hägar wrote:
"Mark Earnest" wrote in message Scientists think the drifting hydrogen atoms somehow come together and form stars and planets. That is not what a gas does. Gases dissipate. Try again, scientists. *** So how do you think it happened ??? right after the BB, the Universe was composed of about 75% Hydrogen, 23% Helium and a smattering of other gases. Astronauts on the ISS put salt into a zip lock bag and much to their surprise, it coalesced into lumps in a very short time. Feel free to substitute the word "salt" with the word "hydrogen" . You really must have sucked at Physics ... Poor analogy. Water vapors in the air can do that to salt. Gases dissipate. If you can't see that you must have sucked at physics. I made A's in physics and used those A's to get a really nice tech job working on solar energy research. |
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Formation of Solar Systems
"Mark Earnest" wrote in message ... On Friday, September 29, 2017 at 1:59:58 PM UTC-5, Hägar wrote: "Mark Earnest" wrote in message Scientists think the drifting hydrogen atoms somehow come together and form stars and planets. That is not what a gas does. Gases dissipate. Try again, scientists. *** So how do you think it happened ??? right after the BB, the Universe was composed of about 75% Hydrogen, 23% Helium and a smattering of other gases. Astronauts on the ISS put salt into a zip lock bag and much to their surprise, it coalesced into lumps in a very short time. Feel free to substitute the word "salt" with the word "hydrogen" . You really must have sucked at Physics ... Poor analogy. Water vapors in the air can do that to salt. Gases dissipate. If you can't see that you must have sucked at physics. I made A's in physics and used those A's to get a really nice tech job working on solar energy research. ****Hagar doesn't believe in solar energy. He is, however, a major user of natural gas. http://webpages.charter.net/notroll2015/ |
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Formation of Solar Systems
Mark Earnest wrote:
Scientists think the drifting hydrogen atoms somehow come together and form stars and planets. The force of gravity is what does it. That is not what a gas does. Gases dissipate. In an atmosphere, yes, because the particles of the atmosphere force the constituent particles of the gas apart. In a vacumm, that doesn't occur. |
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Formation of Solar Systems
On Friday, September 29, 2017 at 6:00:54 PM UTC-5, Ned Latham wrote:
Mark Earnest wrote: Scientists think the drifting hydrogen atoms somehow come together and form stars and planets. The force of gravity is what does it. That is not what a gas does. Gases dissipate. In an atmosphere, yes, because the particles of the atmosphere force the constituent particles of the gas apart. In a vacumm, that doesn't occur. If the atoms repel each other on with gravity affecting them they surely repel each other in a vacuum. |
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Formation of Solar Systems
On 30-9-2017 1:13, Mark Earnest wrote:
On Friday, September 29, 2017 at 6:00:54 PM UTC-5, Ned Latham wrote: Mark Earnest wrote: Scientists think the drifting hydrogen atoms somehow come together and form stars and planets. The force of gravity is what does it. That is not what a gas does. Gases dissipate. In an atmosphere, yes, because the particles of the atmosphere force the constituent particles of the gas apart. In a vacumm, that doesn't occur. If the atoms repel each other on with gravity affecting them they surely repel each other in a vacuum. in the atmosphere they are close to each other and collide, they dont repel. In space they are far apart and only gravity and light pressure moves gas clouds. In space they are |
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Formation of Solar Systems
Mark Earnest wrote:
Ned Latham wrote: Mark Earnest wrote: Scientists think the drifting hydrogen atoms somehow come together and form stars and planets. The force of gravity is what does it. That is not what a gas does. Gases dissipate. In an atmosphere, yes, because the particles of the atmosphere force the constituent particles of the gas apart. In a vacumm, that doesn't occur. If the atoms repel each other on with gravity affecting them they surely repel each other in a vacuum. Atoms don't repel each other, they attract each other. GRAVITY! |
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Formation of Solar Systems
On Friday, September 29, 2017 at 7:15:32 PM UTC-5, Sjouke Burry wrote:
On 30-9-2017 1:13, Mark Earnest wrote: On Friday, September 29, 2017 at 6:00:54 PM UTC-5, Ned Latham wrote: Mark Earnest wrote: Scientists think the drifting hydrogen atoms somehow come together and form stars and planets. The force of gravity is what does it. That is not what a gas does. Gases dissipate. In an atmosphere, yes, because the particles of the atmosphere force the constituent particles of the gas apart. In a vacumm, that doesn't occur. If the atoms repel each other on with gravity affecting them they surely repel each other in a vacuum. in the atmosphere they are close to each other and collide, they dont repel. In space they are far apart and only gravity and light pressure moves gas clouds. In space they are Atoms in gas state always repel especially if they are far apart like they are in outer space. Why would an atom behave differently just because it is in outer space? |
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Formation of Solar Systems
On Friday, September 29, 2017 at 8:02:38 PM UTC-5, Ned Latham wrote:
Mark Earnest wrote: Ned Latham wrote: Mark Earnest wrote: Scientists think the drifting hydrogen atoms somehow come together and form stars and planets. The force of gravity is what does it. That is not what a gas does. Gases dissipate. In an atmosphere, yes, because the particles of the atmosphere force the constituent particles of the gas apart. In a vacumm, that doesn't occur. If the atoms repel each other on with gravity affecting them they surely repel each other in a vacuum. Atoms don't repel each other, they attract each other. GRAVITY! Go boil some water. The resulting atoms in gas state surely do repel each other! Gravity is a very weak attracting force that only happens noticeably when there is a very huge object like a planet or an asteroid. Atoms in outer space are no such huge object! |
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