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Warp wrote:
> when the state of the particle is "observed" (whatever that might mean)
Merely that you have done something to it which changes its unknown
state, usually causing it to make contact with another particle(s), such
as a detector. In effect, if the particle is on its own, and hasn't hit
anything, it can be in a lot of places at once. In the case of light,
"hitting" requires that the thing it hits have optical properties that
have a high chance of making such a change, which things like air don't.
But, don't ask me why in that case, other than it maybe involves optical
properties and perhaps how often it "will" hit the other particles in
the air itself. lol
--
void main () {
if version = "Vista" {
call slow_by_half();
call DRM_everything();
}
call functional_code();
}
else
call crash_windows();
}
<A HREF='http://www.daz3d.com/index.php?refid=16130551'>Get 3D Models,
3D Content, and 3D Software at DAZ3D!</A>
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Jim Henderson wrote:
> You could probably see a fair bit from Stonehenge....
With Salisbury 11 miles to the south, and Amesbury 4 miles to the east?
Unrelated but... I gather they don't let you go near Stonehenge any more.
--
http://blog.orphi.me.uk/
http://www.zazzle.com/MathematicalOrchid*
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Warp wrote:
> I don't think you can talk about amplitudes after claiming so firmly that
> photons are not waves.
Here's another analogy that might help.
You're flipping coins. You notice that coins come up 50% heads and 50%
tails. You say "How can that be, if every coin has to come up either heads
or tails? How do you get a coin coming up only 50% heads?"
Well, in spite of that, every *other* measurement tells you a coin comes up
heads or tails, never 50% of each.
Same thing with photons. There doesn't have to be waves to get an
interference pattern, just interference. But what's interfering is the
possibilities, not the electrons. Just like the thing that's 1/2 in the
coins is that each possibility is only half likely, when any given
individual coin flip always comes up 100% heads or 100% tails.
--
Darren New, San Diego CA, USA (PST)
Human nature dictates that toothpaste tubes spend
much longer being almost empty than almost full.
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>> It's true that in very low light conditions, vision takes on a
>> "speckley" character, presumably due to some combination of small
>> numbers of photons or small numbers of individual nerve impulses
>> generating a fairly noisey signal. I'm not sure whether one single
>> photon is enough to generate a nerve action potential though; maybe it
>> takes 10 or so?
>
> Not a bad guess.
>
> http://math.ucr.edu/home/baez/physics/Quantum/see_a_photon.html
Well, I have a book - a truly awful book written by a guy who thinks
that molecular biology *proves* that Darwin is wrong. The book spends
most of its time with broken analogies and flawed logic, but inbetween
is some really quite interesting stuff about various chemical processes
of the cell - including the cascade for either retinol or rhodopsin, I
forget which.
Essentially, when a single molecule of this protein absorbs a single
photon, it undergoes a structural change which causes it to react with
another protein, which causes one of the ion pumps on the cell wall to
shut off, thereby macroscopically altering the ion concentration inside
the cell, generating a minute but measurable net charge for the entire
cell, which leads to a nerve impulse being fired... or something like
that. It's *complicated*!
But anyway, I don't recall the exact pathway off the top of my head, but
it would seem that you'd need a few photons for one of them to actually
hit a rod (rather than a cone or some other random cell), in the right
place to collide with a rhodopsin molecule (instead of some other
protein floating around in the cytol), and it seems reasonable that
you'd need to switch off a few ion pumps at once to make an action
potential big enough to "fire" the neuron... so it seems reasonable that
some smallish number of photons is required. Biological systems can
become ludicrously efficient where there's some advantage to it, so it's
not going to be thousands of photons either...
--
http://blog.orphi.me.uk/
http://www.zazzle.com/MathematicalOrchid*
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On Tue, 01 Dec 2009 21:42:56 +0000, Orchid XP v8 wrote:
> Jim Henderson wrote:
>
>> You could probably see a fair bit from Stonehenge....
>
> With Salisbury 11 miles to the south, and Amesbury 4 miles to the east?
That's not that far, really.
> Unrelated but... I gather they don't let you go near Stonehenge any
> more.
Depends on your definition of "near" - when we visited, they had the
stones themselves roped off, but you could still walk around them.
Problems with vandalism apparently led them to cordon them off except for
during special events (like the Solstice).
Jim
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Warp wrote:
> Darren New <dne### [at] san rrcom> wrote:
>> That's mistaken. There are no waves.
>
> It looks like a wave, it behaves like a wave, it produces all the
> effects
> that a wave would produce, but it's not a wave.
Conclusion: quantum physics doesn't have duck typing :)
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Nicolas Alvarez wrote:
> Warp wrote:
>> Darren New <dne### [at] sanrrcom> wrote:
>>> That's mistaken. There are no waves.
>> It looks like a wave, it behaves like a wave, it produces all the
>> effects
>> that a wave would produce, but it's not a wave.
>
> Conclusion: quantum physics doesn't have duck typing :)
Heh. More precisely, there's one situation in which it behaves like a wave
in one aspect. So it's kind of like a java interface.
--
Darren New, San Diego CA, USA (PST)
Human nature dictates that toothpaste tubes spend
much longer being almost empty than almost full.
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Warp wrote:
> It looks like a wave, it behaves like a wave, it produces all the effects
> that a wave would produce, but it's not a wave.
By the way, just so you know, this sort of statement comes across to me as
sarcastic, as if you're ridiculing my statements. I don't know if that's
your intention here, but that's why after a number of exchanges I sometimes
get ruder than I need to be. I don't know if it's a communication issue or
you getting frustrated at my inability to explain quantum mechanics in a
2-paragraph post ;-) but sometimes when you don't agree, your expressions of
that lack of agreement (not necessarily disagreement, mind) sound sarcastic.
--
Darren New, San Diego CA, USA (PST)
Human nature dictates that toothpaste tubes spend
much longer being almost empty than almost full.
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> Essentially, when a single molecule of this protein absorbs a single
> photon, it undergoes a structural change which causes it to react with
> another protein, which causes one of the ion pumps on the cell wall to
> shut off, thereby macroscopically altering the ion concentration inside
> the cell, generating a minute but measurable net charge for the entire
> cell, which leads to a nerve impulse being fired... or something like
> that. It's *complicated*!
With some quick calculations and rather dubious assumptions I estimate that
from a star like Betelgeuse approximately 10^6 photons are going into your
eye per second. This is about the same as a 100 W light bulb 10 km away.
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>> Essentially, when a single molecule of this protein absorbs a single
>> photon, it undergoes a structural change which causes it to react with
>> another protein, which causes one of the ion pumps on the cell wall to
>> shut off, thereby macroscopically altering the ion concentration
>> inside the cell, generating a minute but measurable net charge for the
>> entire cell, which leads to a nerve impulse being fired... or
>> something like that. It's *complicated*!
>
> With some quick calculations and rather dubious assumptions I estimate
> that from a star like Betelgeuse approximately 10^6 photons are going
> into your eye per second. This is about the same as a 100 W light bulb
> 10 km away.
Dubious assumptions FTW! :-D
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