I must comment on the "effects" in the image you posted above?

Watch as much of the winter olympics, where the outdoor events are covered in crisp sunshine.

Now a good event to watch is the Mens snowboarding final, although over it should be available in repeats or online (I will find some links0), but if you record on video as much outside events as you can, then you will start to see some interesting facts about (the energy-beam emminating from the accretion disk centre in you link), the SAME energy beam exists in all the images of Olympic footage, where the Sun is at a specific angle in relation to the image taker!

Watch and spot as much as you can, then one can see that all hubble images that are at specific angles produce this effect, I will prove this without a doubt!
Paul Valletta | 02.14.06 - 2:28 am | #

Paul I am not sure I understand completely. Sometimes, I think I might know, but to be sure, is there some pictures that might represent this, that you could supply, as you did with words.

Under google images try as best you can to place the wording that might best describe what you are seeing? Would this be helpful?

Refraction of light?
Plato | Homepage | 02.14.06 - 10:19 pm | #

Yes, I have to be sure that I am conveying something of importance:

http://hubblesite.org/gallery/al...ion/pr2000020a/

Now if one observes images from Alpine resorts, where the Sun is in the same position (WRT observer), with the Hubble image, if one was to overlap this image with one taken at the Olympic Games?..a computer enhanced programme would conclude that both "beams" were one and the same!
Paul Valletta | 02.15.06 - 4:28 am | #

I also not that the Hubble site has this image:
http://hubblesite.org/gallery/al...ion/pr1992017a/

this in its original form was:
http://groups.msn.com/Relativity...hoto& PhotoID=30

I was the first to place the image in its rotated form, so that M5 = Man standing at the edge of time?

So trust me, take this image:
http://hubblesite.org/gallery/al...ion/pr1994023a/

Roatate it and over lap it to this:
http://hubblesite.org/gallery/al...ion/pr2000020a/

and now you have two images that project the same beaming?

Hope you understand a little
Paul Valletta | 02.15.06 - 4:38 am | #

This is the image that I was thinking of, but when you put this one, I am not sure I am following.

Just let me say I am thinking of Einstein's Cross in this case?

Lenses in general "collect and focus light" and those "gravitational lenses" (Lee at al posit a minimum of five low-mass but highly condensed bodies) within PGC 69457, do the same. In this way, light from a quasar that would normally travel well away from our instruments "wraps around" the galaxy to come toward us. Because of this we "see" 100,000 times more detail than otherwise possible. But there is a catch: Despite getting 100,000 times more resolution, we still only see light, not detail. And because there are several masses refracting light in the galaxy, we see more than one view of the quasar.

Bright Optical Jet

NASA's Hubble Space Telescope Yields Clear View of Optical Jet in Galaxy M87

A NASA Hubble Space Telescope (HST) view of a 4,000 light-year long jet of plasma emanating from the bright nucleus of the giant elliptical galaxy M87. This ultraviolet light image was made with the European Space Agency's Faint Object Camera (FOC), one of two imaging systems aboard HST. This photo is being presented on Thursday, January 16th at the 179th meeting of the American Astronomical Society meeting in Atlanta, Georgia. M87 is a giant elliptical galaxy with an estimated mass of 300 billion suns. Located 52 million light-years away at the heart of the neighboring Virgo cluster of galaxies, M87 is the nearest example of an active galactic nucleus with a bright optical jet. The jet appears as a string of knots within a widening cone extending out from the core of M87. The FOC image reveals unprecedented detail in these knots, resolving some features as small as ten light-years across. According to one theory, the jet is most likely powered by a 3 billion solar mass black hole at the nucleus of M87. Magnetic fields generated within a spinning accretion disk surrounding the black hole, spiral around the edge of the jet. The fields confine the jet to a long narrow tube of hot plasma and charged particles. High speed electrons and protons which are accelerated near the black hole race along the tube at nearly the speed of light. When electrons are caught up in the magnetic field they radiate in a process called synchrotron radiation. The Faint Object Camera image clearly resolves these localized electron acceleration, which seem to trace out the spiral pattern of the otherwise invisible magnetic field lines. A large bright knot located midway along the jet shows where the blue jet disrupts violently and becomes more chaotic. Farther out from the core the jet bends and dissipates as it rams into a wall of gas, invisible but present throughout the galaxy which the jet has plowed in front of itself. HST is ideally suited for studying extragalactic jets. The Telescope's UV sensitivity allows it to clearly separate a jet from the stellar background light of its host galaxy. What's more, the FOC's high angular resolution is comparable to sub arc second resolution achieved by large radio telescope arrays.

Now if you were to take this to micro-perspective thinking how would this play out in a geometrical sense?

Now. Such particle creation further out, would have been assigned particle identification in weak field manifestation. Neutrinos on earth in ICECUBE from cosmological collisions of high energy particles

This is the lesson that I am seeing as we see what Penrose is "now accepting for consideration" and what you have pointed out is part and parcel of the incentive in this universe. The universe recreates itself at different galaxy perspective points, and froma larger perspective this universe itself came from such a process.

"Fuels" the Dark side
Plato | Homepage | 02.15.06 - 6:55 am | #

With respect to "flaring" effects of images from hubble?..if one leaves this load:

http://news.bbc.co.uk/sport1/sha...tml/ default.stm

after the "2" logo dissapears, an Alpine image of the Sun appears, the Sun is at the top-left corner, you can see the "flaring" emminating from the top left corner, down to the right hand corner, it beams across the yellow [play intro] box?

Hopefully you can understand and see the Lensing-Effect, blue "curve" and blue flecks appearing along the beam?

Hopefully this, with the coupled links and images that you have placed can point you to a better understanding.
Paul Valletta | 02.16.06 - 1:30 am | #

Your example is excellent as usual

If we had seen the energy beam focused and directed what analogies ot "cernenkov radiation" seen in this example?

I will try and show waht I am seeing.
Plato | Homepage | 02.18.06 - 12:59 pm | #

36dede b1691d5a62
palma | Homepage | 12.15.06 - 12:59 pm | #