Posted on 05/12/2008 7:05:51 PM PDT by NormsRevenge
I'm having some success on that, although I have not completely cracked the code yet.
It has something to do with Evil Clothes Dryers, though.
And I suspect that they don't just want our socks...they have grand plans to over the world.
One sock at a time.
Beware.
Yesterday upon the star
I saw a web that wasn’t thar
It wasn’t thar again today
What does it matter anyway?
I just cleaned out my garage, so I have a spot where we can store the missing baryonic matter. Send it on over.
I do have a theory on this and it may help you with your research.
1st. Sock have an finite lifespan. They are only good for so many cycles in a dryer and that’s it. Unfortunately, no one knows what that number is and it is different for each individual sock.
2nd. There is no such thing as lint. Lint does not exist in the known universe and no clothing item releases lint. HOWEVER,....
When that poor defenseless sock which has already survived it’s final dryer cycle we still cold-heartedly thow it in the dryer that one last time and....POOOF!!!! It turns into this pure fibrus substance that we unwittingly call “lint”.
So in fact the missing sock was there all the time. It was just in a new form in the lint filter.
Sandy Berger was only taking it home to ‘look at’. He was going to bring it back the next day, honestly.
I want to believe.
First describe the definition of temperature and the ordinary mechanisms of cooling.
Then the answer may become clearer.
Hint: T, R, and V.
Photon emission too.
Cheers!
Are you saying that the heat does not really exist?
What could be generating that much X-ray radiation to cause that much heat? A Blackhole?
That's my question. How could this matter stay SO hot in inter-galactic space?
Not sure. I was waiting for someone to provide the answer.
Radioastronomer could have handled easy it but he was banned.
I bet it was right where he left it, next to my car keys. Could be he re-traced his steps, did he remember where he was the last time he dad it?
Have you ever noticed that socks do that disappearing thing more frequently when sunspot activity is high?
Cell phone transmissions getting wonky? Radio coming in kind of funny? Count the socks.
Saying that it’s hot (a million degrees) is actually a little misleading. The material is so diffuse that the average temperature of space is really only a fraction of a degree. Interstellar emission nebulas do the same thing: they can absorb high-frequency radiation from nearby stars, which heats up the individual atoms proportionally to the wavelength, but the actual energy is small since there is only a few atoms in a cubic centimeter. Now with a star or planet, temperature is much more significant because there’s a lot of mass...
"Previously, only about half of the baryonic matter in the universe was accounted for by the known gas, stars and galaxies. A team of astrophysicists has now found evidence of part of the missing half in a bridge-like filament connecting two clusters of galaxies."
More surprised mainstream cosmologists... sounds like an electrical plasma to me.
If you want on or off the Electric Universe Ping List, Freepmail me.
GOOD question. How about electricity?
I don't think he could. These filaments connecting galaxies are a surprise to mainstream cosmologists. Nothing in their gravity powered, neutral charge universe theories can account for it. The Electrical Universe Cosmologists have been predicting and looking for just such a discovery.
That bottom picture looks just like an illustration of the synaptic connections in the brain.
My sister went to skool to be a cosmotologist. She got a free electrical plasma hair dryer for enrolling. She's a blonde
Tumbolia
Temperature is the measure of the kinetic energy of a substance. A fast-moving or vibrating atom or molecule has a higher temperature than a slower one. Heat, OTOH, is a product of the temperature of a substance and the mass of it; essentially it is a measurement of an amount of energy. So, then, a quart of water at 50 deg C. has the same temperature as a teaspoon of water at that temperature, but only a small percentage of the heat.
A single atom moving at a high rate of speed in a vacumn won't drop in temperature or give up heat because there's nothing for it to collide with and thus nothing to transfer energy to. It doesn't just slow down; that would violate inertia. It could lose heat if it's electrons drop their orbitals to a ground state and it thereby gives off a photon, but after a very small fraction of that 13 billion years they're all already in a ground state so that's not going to happen anymore.
Whereas the water we are talking about hits the sides of the container, which hits the atmosphere, or your hand, and loses energy. That's felt as heat and measured as temperature.
The threads of gas they are talking about are so thin that the atoms/molecules in it are unlikely to hit anything else for billions of years. So they stay incredibly hot. But you'd have a hell of a time absorbing any heat from the gas even if you drove the Enterprise right through it (or Firefly if you prefer). Not enough of it hits the ship to transfer any appreciable amount of energy. It can be measured by the scientists because there's so much of it, and the energies that it does absorb and give off can be detected and measured.
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