is the unusual spectra indicative of unsimilar and unknown type of universe?
It appears the collision of contraryrotating galaxies, the foreground seems to be flattened by hot spinars collapse within oddly sparse ring
That usually depends on the angular declination of the Earth&Telescope as well, sliding, hazy spirals
The deep field usually conceals, what redshift reveals, hazy spirals
The galaxy mergers are gravitational collisions of mind-bogglingly vast regions of space, nevertheless gravitationally bound
The shhoting stream of stars may signify the collapse merger of black holes, a direct collision of near-singularity objects
Angular shift as well as rotation velocity of, respectively, Earth&Telescope, are the main reasons why spirals blurr unto ellipticals
It appears that the foregroung dust lines are the primordial dwarf galaxies & ejecta debris - a shadow farewell of lost worlds
The gravitational merging nascent with two companion galaxies is nevertheless evident as two active shooting streams of stars off the latter
Is the dependance we call galaxy elliptical is the consequence of an angular shift of EARTH&TELESCOPE?
The central bulge seems to be off-rotational axis, which supposedly implies active black holes' and dim star clusters shooting it off-cetre
The tilt of rotation seems to imply how we see the central bulge, as the clock, the arms alongside, contrary- anti- or clockwise
Whatever edge-on is a spiral but the scale of rotaion is the spiniing bang of some plane we see at a different angle
It appears, that the current galaxy is taken within the angular shift of the Planet&Telescope and the darkining streak is just closer cloud
There seems a doppler's agular shift of the Earth (&Telescope) to have contributed to the shaded streak of nether regions of the galaxy
The rotational velocity of a galaxy seems to be the consequence of a impact's and the vastness of clock arms testify to it's resonance
There seem to be an active bar with two giant anti-gravity arms at an clockwise angle and, the darkish dwarf companion upper right
Does the agular shift of a planet, which creates the doppler shift image of the object, mean that the dimention shifted as well?
The active clumps of the upper and lower arms are the alternate centres of gravity. Are the dust lines primordial debris clusters?
The central bar seems on the background receding, and the benign halo of foreground amrs is less constant at the moment than the bar
The galaxy seems to be spiralling off in a shifty clockwise manner
The galaxy appears optically concave, which seems to be indicative of benign angukar shift of an remote advancing foreground galaxy
The background active inner core seem to overlap with a foreground dust lane of a dark, that is, abound with ancient debris, galaxy cluster
The bright active inner arms seem to interact with giant much more dispersed contrary-clockwise by far more primordial outer arms
Likely it a 'sombrery' spiral, seems to be interaction of active observable and dim galaxies of a beyond 'dark-matter' horizon debris
The central bulge seems to be always on a couter-clockwise impetus, the angular dimentions of the latter kind of unique circumstance
Are the spheroidal, i.e. spirals undiscernible, galaxies indicative of a merger within primordial debris clouds?
There appear to be discernible clumps inside spheroidal galaxy, which seem to be indicative of hazy sombrero-like megrer inside debris cloud
Very beautlful sombrero-dreamy galaxy, it seems almost edgy, but why such an impressive haze around? - an old dark debris
The two giant arms are indicative of a very powerful clash long ago, long since long past, the bar is immensely advanced in the background
The optically concave impression of overall spiral, quite edgy as it is, must've been the contrary-to-anticlockwise bar instability as well
There seems to be a region of active merger which spins contraryclockwise to the overall spiral arms' structure, anticlockwise as it is
It appears these two galaxies' common tilt suggest supergravitational tug despite vast hiatus between them, but of what nature?
it's odd that close-up star's light pollution can be of a decisive gravitational tug on observer's eye
The clumpy spiral arms signify the very active dwarf galaxies on a clockwise pattern as of gravitational mergers on a verge of unusual void
The outer halo of the galaxy signifies it's an old elliptical, but it's brighness are of an active merger moving to the foreground
Actually the spiral arms, if taken at an optical angle, with cumulative albedo, create an impression of cigar-shaped elliptical, at a bar
There is intense foreground elliptical, which seems to be receding unto the tidal debris of background anticlockwise spiral, as observed
That seems to be some interim phase merging into giant eliptical. The core galaxy is actively expelled to the foreground.
The galaxy seem to sustain sideline rotation tilt alongside clockwise of the arms. That might indicate the active core galaxies in the bar.
That very dim spiral seems to be languishing on the foreground of receding central core rotating somewhat on a sideline with the spirals
this edge-on galaxy seems rotating lower spiral arm upwards and the upper spiral arm receding outwards. That explains the brighter lower arm
interacting galaxy group member ejecting by closer pair of galaxies. All three visible galaxies seem to be rotating clockwise
centrl bar seems to be right inside-tilted approaching galaxy with the tidal ring of it's own. Giant closer forearm, foreground very remote
active edge-on bar on a foregroung spiral galaxy, the left arm shredded by black hole collapse, receding as seen through the close group of stars
halo of close star of a rotating aperture, active background collision beyond shredded old debris of dim foreground galaxy receding
interacting v-shape edge-on collision galaxies in a foreground spiral in an intense tidal debris cloud of approaching foreground collision
the rather distant very active edge-on background core merger galaxy seems to pull the sideline spiral galaxy on a receding course
The galaxy seems to be slowly receding, with
distant vertical edge-on merger
rotating the foreground on a contrary sideline rotation
This is the real pearl of the collection. The bar seems to pull all the giant clockwise arms of a tidal debris off on a receding course.
The galaxy seem to be on a receding course. The active galaxy core, or the bar, are just noticeable, as it appears.
The backgroung lower clump of stars seem to be interacting remote dwarf galaxy and the overall spin edge-on anticlockwise
The foreground spiral arms interacting with the dim central bar will appear to the opposite vantage point as prominent approaching bulge
.
The two interacting galaxies are rather the optical phenomenon in the current observation. They mutually interfere to appear as the bright objects. But actual distance might be of a very significant proportions, of up to 10 million ly in perspective.
The galaxy seem to be sideline-on receding object, interacting with foreground tidal debris of 'the whiff' of 'the kite', stretching along for millions of ly. The active interacting bar seem to rotate the galaxy sideline-clockwise
The dim elliptical objects do have in each case the barely observable spiral arm pattern, since that kind of ellipticals are rather the kind of observational paradox, telling rather more about the galaxy's environment rather than it's actual structure
the foreground one is much closer, I think in kilo-prsc
Again, the backround edge-on galaxy seem to pull on the foreground elliptical galaxy 'more red-shiftic', i. e. directionally receding, and much more distant interactively-wise, than the previous one, the dim foreground one seem to be enveloped in a host of 'dark matter', id est in-between dim objects, as well as closer foreground (dust- lanes, dim dwarfs with planetary rings etc.).
It appears the two interacting galaxies, the background one viewed edge on, very active, as a centlal bulge. The foreground's galaxy bulge coincides optically with the very active background edge-on, and cumulatively as optical companions they dynamically interfere. Again, the background edge-on 'counterstrike'galaxy seems to push on the foreground spiral 'less red-shiftic', that's it observationally, towards Earth, directional.
may be the prominent bulge interacts with galaxies alongside view, too dim to see in given spectrum? But the direction of interaction appears to be at approaching direction, therefore the brightness. But does the reverse, in ither cases, means the opposite, the relaitvely dim bulge, as in a previous case, means receding interaction?
the gravitational lensing is odd, since the camera in question appears to undergo a significant shift upwards, but the galaxy appears unmoved. Does that signify, that the rotational lensing exceeds tha optical capabilities? So why the galaxy appears unmoved? May be the field of the camera exceeds the technical limits of slueth capabilities?
it appears, that the central bulge is gravitationally dominant, but somewhat far away from the arms and tidal debris. It might signify the remote collision galaxy alangside view, may be somewhat to the left, which appears to be interacting with the one in question
it appears all possible features are discernible as a matter of a detail depending on how far you are going to be immersed in an object.
is the unusual spectra indicative of unsimilar and unknown type of universe?
It appears the collision of contraryrotating galaxies, the foreground seems to be flattened by hot spinars collapse within oddly sparse ring
That usually depends on the angular declination of the Earth&Telescope as well, sliding, hazy spirals
The deep field usually conceals, what redshift reveals, hazy spirals
The galaxy mergers are gravitational collisions of mind-bogglingly vast regions of space, nevertheless gravitationally bound
The shhoting stream of stars may signify the collapse merger of black holes, a direct collision of near-singularity objects
Angular shift as well as rotation velocity of, respectively, Earth&Telescope, are the main reasons why spirals blurr unto ellipticals
It appears that the foregroung dust lines are the primordial dwarf galaxies & ejecta debris - a shadow farewell of lost worlds
The gravitational merging nascent with two companion galaxies is nevertheless evident as two active shooting streams of stars off the latter
Is the dependance we call galaxy elliptical is the consequence of an angular shift of EARTH&TELESCOPE?
The central bulge seems to be off-rotational axis, which supposedly implies active black holes' and dim star clusters shooting it off-cetre
The tilt of rotation seems to imply how we see the central bulge, as the clock, the arms alongside, contrary- anti- or clockwise
Whatever edge-on is a spiral but the scale of rotaion is the spiniing bang of some plane we see at a different angle
It appears, that the current galaxy is taken within the angular shift of the Planet&Telescope and the darkining streak is just closer cloud
There seems a doppler's agular shift of the Earth (&Telescope) to have contributed to the shaded streak of nether regions of the galaxy
The rotational velocity of a galaxy seems to be the consequence of a impact's and the vastness of clock arms testify to it's resonance
There seem to be an active bar with two giant anti-gravity arms at an clockwise angle and, the darkish dwarf companion upper right
Does the agular shift of a planet, which creates the doppler shift image of the object, mean that the dimention shifted as well?
The active clumps of the upper and lower arms are the alternate centres of gravity. Are the dust lines primordial debris clusters?
The central bar seems on the background receding, and the benign halo of foreground amrs is less constant at the moment than the bar
The galaxy seems to be spiralling off in a shifty clockwise manner
The galaxy appears optically concave, which seems to be indicative of benign angukar shift of an remote advancing foreground galaxy
The background active inner core seem to overlap with a foreground dust lane of a dark, that is, abound with ancient debris, galaxy cluster
The bright active inner arms seem to interact with giant much more dispersed contrary-clockwise by far more primordial outer arms
Likely it a 'sombrery' spiral, seems to be interaction of active observable and dim galaxies of a beyond 'dark-matter' horizon debris
The central bulge seems to be always on a couter-clockwise impetus, the angular dimentions of the latter kind of unique circumstance
Are the spheroidal, i.e. spirals undiscernible, galaxies indicative of a merger within primordial debris clouds?
There appear to be discernible clumps inside spheroidal galaxy, which seem to be indicative of hazy sombrero-like megrer inside debris cloud
Very beautlful sombrero-dreamy galaxy, it seems almost edgy, but why such an impressive haze around? - an old dark debris
The two giant arms are indicative of a very powerful clash long ago, long since long past, the bar is immensely advanced in the background
The optically concave impression of overall spiral, quite edgy as it is, must've been the contrary-to-anticlockwise bar instability as well
There seems to be a region of active merger which spins contraryclockwise to the overall spiral arms' structure, anticlockwise as it is
It appears these two galaxies' common tilt suggest supergravitational tug despite vast hiatus between them, but of what nature?
it's odd that close-up star's light pollution can be of a decisive gravitational tug on observer's eye
The clumpy spiral arms signify the very active dwarf galaxies on a clockwise pattern as of gravitational mergers on a verge of unusual void
The outer halo of the galaxy signifies it's an old elliptical, but it's brighness are of an active merger moving to the foreground
Actually the spiral arms, if taken at an optical angle, with cumulative albedo, create an impression of cigar-shaped elliptical, at a bar
There is intense foreground elliptical, which seems to be receding unto the tidal debris of background anticlockwise spiral, as observed
That seems to be some interim phase merging into giant eliptical. The core galaxy is actively expelled to the foreground.
The galaxy seem to sustain sideline rotation tilt alongside clockwise of the arms. That might indicate the active core galaxies in the bar.
That very dim spiral seems to be languishing on the foreground of receding central core rotating somewhat on a sideline with the spirals
this edge-on galaxy seems rotating lower spiral arm upwards and the upper spiral arm receding outwards. That explains the brighter lower arm
interacting galaxy group member ejecting by closer pair of galaxies. All three visible galaxies seem to be rotating clockwise
centrl bar seems to be right inside-tilted approaching galaxy with the tidal ring of it's own. Giant closer forearm, foreground very remote
active edge-on bar on a foregroung spiral galaxy, the left arm shredded by black hole collapse, receding as seen through the close group of stars
halo of close star of a rotating aperture, active background collision beyond shredded old debris of dim foreground galaxy receding
interacting v-shape edge-on collision galaxies in a foreground spiral in an intense tidal debris cloud of approaching foreground collision
the rather distant very active edge-on background core merger galaxy seems to pull the sideline spiral galaxy on a receding course
The galaxy seems to be slowly receding, with
distant vertical edge-on merger
rotating the foreground on a contrary sideline rotation
This is the real pearl of the collection. The bar seems to pull all the giant clockwise arms of a tidal debris off on a receding course.
The galaxy seem to be on a receding course. The active galaxy core, or the bar, are just noticeable, as it appears.
The backgroung lower clump of stars seem to be interacting remote dwarf galaxy and the overall spin edge-on anticlockwise
The foreground spiral arms interacting with the dim central bar will appear to the opposite vantage point as prominent approaching bulge
.
The two interacting galaxies are rather the optical phenomenon in the current observation. They mutually interfere to appear as the bright objects. But actual distance might be of a very significant proportions, of up to 10 million ly in perspective.
The galaxy seem to be sideline-on receding object, interacting with foreground tidal debris of 'the whiff' of 'the kite', stretching along for millions of ly. The active interacting bar seem to rotate the galaxy sideline-clockwise
The dim elliptical objects do have in each case the barely observable spiral arm pattern, since that kind of ellipticals are rather the kind of observational paradox, telling rather more about the galaxy's environment rather than it's actual structure
the foreground one is much closer, I think in kilo-prsc
Again, the backround edge-on galaxy seem to pull on the foreground elliptical galaxy 'more red-shiftic', i. e. directionally receding, and much more distant interactively-wise, than the previous one, the dim foreground one seem to be enveloped in a host of 'dark matter', id est in-between dim objects, as well as closer foreground (dust- lanes, dim dwarfs with planetary rings etc.).
It appears the two interacting galaxies, the background one viewed edge on, very active, as a centlal bulge. The foreground's galaxy bulge coincides optically with the very active background edge-on, and cumulatively as optical companions they dynamically interfere. Again, the background edge-on 'counterstrike'galaxy seems to push on the foreground spiral 'less red-shiftic', that's it observationally, towards Earth, directional.
may be the prominent bulge interacts with galaxies alongside view, too dim to see in given spectrum? But the direction of interaction appears to be at approaching direction, therefore the brightness. But does the reverse, in ither cases, means the opposite, the relaitvely dim bulge, as in a previous case, means receding interaction?
the gravitational lensing is odd, since the camera in question appears to undergo a significant shift upwards, but the galaxy appears unmoved. Does that signify, that the rotational lensing exceeds tha optical capabilities? So why the galaxy appears unmoved? May be the field of the camera exceeds the technical limits of slueth capabilities?
it appears, that the central bulge is gravitationally dominant, but somewhat far away from the arms and tidal debris. It might signify the remote collision galaxy alangside view, may be somewhat to the left, which appears to be interacting with the one in question
it appears all possible features are discernible as a matter of a detail depending on how far you are going to be immersed in an object.