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Bill Pragnell wrote:
> Warp was trying to clarify his understanding of momentum (which can be a
> tricky concept to separate from energy if you've not learned physics to
> quite a high level) and this isn't likely to help him. :-)
I plead guilty to drifting off-topic on p.off-topic! :-)
--
Darren New / San Diego, CA, USA (PST)
Remember the good old days, when we
used to complain about cryptography
being export-restricted?
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Darren New wrote:
> Bill Pragnell wrote:
>> Warp was trying to clarify his understanding of momentum (which can be
>> a tricky concept to separate from energy if you've not learned physics
>> to quite a high level) and this isn't likely to help him. :-)
>
> I plead guilty to drifting off-topic on p.off-topic! :-)
Ha, that's nothing, they're discussing rendering algorithms further
down. Now that's definitely off-topic for this group... ;-)
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Bill Pragnell wrote:
> Darren New wrote:
>> Bill Pragnell wrote:
>>> Warp was trying to clarify his understanding of momentum (which can
>>> be a tricky concept to separate from energy if you've not learned
>>> physics to quite a high level) and this isn't likely to help him. :-)
>>
>> I plead guilty to drifting off-topic on p.off-topic! :-)
>
> Ha, that's nothing, they're discussing rendering algorithms further
> down. Now that's definitely off-topic for this group... ;-)
But.. if it's off-topic, then doesn't it just belong here? ;)
-- Arttu Voutilainen
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"Alain" <ele### [at] netscapenet> wrote in message
news:47274dcc@news.povray.org...
> ... Gamma radiation is light. The kynetic energy mass gets transformed
> into light. And remember: light can push objects. It's just that this push
> is normaly to small for you to notice, but it can easily be demonstrated
> with a very simple experiment.
> Take an empty globe of glass, place a needle holding a light rotor made
> from a glass axis and holding 3 or 4 blades, white on one side, black on
> the other. Place the rotor on the needle. Remove all air from the globe.
> Have ANY light shining on that rotor, even a candle light, and the rotor
> will spinn. That experiment is over 100 years old!
I saw that experiment in a high-school physics lab three decades ago. I was
mightily impressed -- in fact it was one of my first "WOW" moments in
science. It completely turned my mind to suddenly realise that:
a. Light actually has a mass that exerts force on "solid" matter.
b. Even at typical levels, light's force on macro-scale objects is strong
enough that I could stand in an average lab in an average country-town
high-school and watch a finely-balanced vane turn in a vacuum, impelled by
nothing but light.
Until then, I'd thought that the effects of things down at quantum
dimensions could not be observed so simply at our size.
--
Brian
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Brian Elliott wrote:
> "Alain" <ele### [at] netscapenet> wrote in message
> news:47274dcc@news.povray.org...
>> ... Gamma radiation is light. The kynetic energy mass gets transformed
>> into light. And remember: light can push objects. It's just that this
>> push is normaly to small for you to notice, but it can easily be
>> demonstrated with a very simple experiment.
>> Take an empty globe of glass, place a needle holding a light rotor
>> made from a glass axis and holding 3 or 4 blades, white on one side,
>> black on the other. Place the rotor on the needle. Remove all air from
>> the globe. Have ANY light shining on that rotor, even a candle light,
>> and the rotor will spinn. That experiment is over 100 years old!
>
> I saw that experiment in a high-school physics lab three decades ago. I
> was mightily impressed -- in fact it was one of my first "WOW" moments
> in science. It completely turned my mind to suddenly realise that:
>
> a. Light actually has a mass that exerts force on "solid" matter.
>
> b. Even at typical levels, light's force on macro-scale objects is
> strong enough that I could stand in an average lab in an average
> country-town high-school and watch a finely-balanced vane turn in a
> vacuum, impelled by nothing but light.
>
> Until then, I'd thought that the effects of things down at quantum
> dimensions could not be observed so simply at our size.
>
It is impressive but the understanding that the rotation is caused by
light pressure in the way you recall is incorrect.
The commonly known instrument is a Crookes Radiometer
(http://en.wikipedia.org/wiki/Crookes_radiometer) and the rotation is
due to a thermal effect in the thin gas near the vanes. It is
definitely not a vacuum inside. In fact if the gas pressure is reduced
to approach a vacuum the effect disappears.
Light pressure would not produce a strong enough effect to show up here.
Also you'll find that the white/silver sides rotate towards the light
rather than the reverse that you would expect if the cause was momentum
being transferred by light bouncing off the more reflective side of the
vanes.
The proper explanation can be found in the Wikipedia article.
A true light pressure effect was measured using a Nichols radiometer
(http://en.wikipedia.org/wiki/Nichols_radiometer). Not nearly as
spectacular or easy to produce in the typical classrooms.
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Arttu Voutilainen wrote:
> Bill Pragnell wrote:
>> Darren New wrote:
>>> Bill Pragnell wrote:
>>>> Warp was trying to clarify his understanding of momentum (which can
>>>> be a tricky concept to separate from energy if you've not learned
>>>> physics to quite a high level) and this isn't likely to help him. :-)
>>> I plead guilty to drifting off-topic on p.off-topic! :-)
>> Ha, that's nothing, they're discussing rendering algorithms further
>> down. Now that's definitely off-topic for this group... ;-)
>
> But.. if it's off-topic, then doesn't it just belong here? ;)
Checkmate. You win again, gravity! :-)
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Alain <ele### [at] netscapenet> wrote:
> Take an empty globe of glass, place a needle holding a light rotor made from a
> glass axis and holding 3 or 4 blades, white on one side, black on the other.
> Place the rotor on the needle. Remove all air from the globe. Have ANY light
> shining on that rotor, even a candle light, and the rotor will spinn. That
> experiment is over 100 years old!
AFAIK that's the same kind of flawed experiment as the "measure the weight
of an empty balloon, then fill it with air and then weight it again" which
supposedly demonstrates the weight of air. (In actuality that's completely
silly. It's like trying to demonstrate the weight of water underwater by
weighting an empty balloon and a balloon filled with water: You won't get
any difference. What this air balloon experiment actually demonstrates is
the compressibility of air and that compressed air inside the balloon has
a higher density.)
AFAIK that "experiment" does *not* work in complete vacuum and, moreover,
makes the blades rotate in the wrong direction. The real reason for the
rotation is that the black sides get heated while the white sides don't,
and the heated black sides heat up the air close to them, making the air
push that side of the blade.
AFAIK photon pressure would not be even near enough to cause the rotation
of such small blades with such (relatively) huge mass.
--
- Warp
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And lo on Tue, 30 Oct 2007 14:54:20 -0000, Jim Henderson
<nos### [at] nospamcom> did spake, saying:
> On Mon, 29 Oct 2007 15:17:18 -0500, Warp wrote:
>
>> Then wikipedia is horribly wrong, I suppose.
>
> Wikipedia isn't always right....
Blasphemer! May a thousand sysops poop on your head :-)
--
Phil Cook
--
I once tried to be apathetic, but I just couldn't be bothered
http://flipc.blogspot.com
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Brian Elliott wrote:
> Until then, I'd thought that the effects of things down at quantum
> dimensions could not be observed so simply at our size.
Here's another one:
Go into a place selling polarized sunglasses. Hold up two pairs a few
inches apart at right angles. No light comes thru, obviously.
Now, without moving those glasses, put a third one in between at a
45-degree angle. Suddenly, light comes thru.
When I see a ray-tracer do *that*, I'll believe in "using physical
equations". ;-)
--
Darren New / San Diego, CA, USA (PST)
Remember the good old days, when we
used to complain about cryptography
being export-restricted?
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Darren New a écrit :
> Brian Elliott wrote:
>> Until then, I'd thought that the effects of things down at quantum
>> dimensions could not be observed so simply at our size.
>
> Here's another one:
>
> Go into a place selling polarized sunglasses. Hold up two pairs a few
> inches apart at right angles. No light comes thru, obviously.
>
> Now, without moving those glasses, put a third one in between at a
> 45-degree angle. Suddenly, light comes thru.
>
> When I see a ray-tracer do *that*, I'll believe in "using physical
> equations". ;-)
>
If you are really into that kind of things, there is at least a paper
about that here:
http://www.cg.tuwien.ac.at/research/publications/2001/wilkie-2001-crp/
So it has been done, just not in a widely known renderer... Perhaps
because the effect is not so ubiquitous in everyday life yet ;-)
--
Vincent
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