Herschel / Hubble Pearls on a String
The Herschel Space Telescope's 3.5m meter mirror focuses
light on three infrared instruments.
Herschel can see, in infrared,
distant primordial galaxies or local
stars hidden within dust clouds. On
September 3, 2009, Herschel used a scanning mode to record the far
infrared light from a section
of the Milky Way near the Southern Cross. This is part of a the
picture it took, courtesy of
ESA. I adjusted the brightness, lightness and contrast to emphasize the
star streams
that are normally hidden by galactic dust clouds.
According to accepted scientific theories, the universe was once
a dense
ball of primordial plasma. As the universe expanded, atoms formed and
gravitated together - the densest clouds condensing into
stars. Stars then gravitated into galaxies. Is it
possible for clouds to gravitate into a
river of equally spaced stars?
Why
do star-streams look like links on a chain? Local
equally
spaced astronomical objects, such as comet
Shoemaker-Levy-9, spread
out by
fragmentation, not by accretion. (This picture of
the shattered comet
is a panorama from the Hubble Space telescope).
The universe's
history is visible,
unlike any other history. We can see the past through the eons to
near the beginning of the universe. This allows us to test the theory
of
condensing
stars by comparing the
shapes of galaxies at many ranges. If space clouds are star factories,
we should observe early (distant) galaxies condensing from diffuse
nebulae into more compact
forms. Deep
telescopic vistas 
show
naked
galaxies often linked together in equally spaced chains. At closer
ranges, we see galaxies with short appendages like tadpole tails.
This is a primordial galaxy sporting a tail of equally spaced blue star
clusters (Hubble Ultra Deep Field galaxy 4491). Notice that the
galaxy's tail
looks like a bent stream of blue tracer bullets. When we compare galaxy
shapes at many ranges (eras), we see that clusters spread out,
accelerate out, the orbits opening not
closing, making more turns as
galaxies grew into huge, local growth spirals. This visible evidence is
not trivial since the universe has at least a hundred billion galaxies.
Evidently stars did not
condense from
dust, but rather they were
ejected from compact galactic cores and spread out to form local,
diffuse
growing galaxies.
Here is another
example of star streams in the Milky Way. In 2009 the Hubble space
telescope was repaired for the last
time, receiving a new camera that can record a much wider spectrum.
Here is a Hubble picture of the Carina Nebula. In visible
light, one sees towering pillars of gas and a turbulent dark cloud.
Astronomers claim that Carina's gases are birthing stars. Scientists
sometimes describe the Carina nebula as the most intense
star birthing area in the Milky Way.
Here is what the new
Hubble
camera sees in the same area in infrared.
The clouds of dust that obscure visible wavelengths, show up as a
bluish veil in this
infrared picture. Notice that two diametrically opposing jets emanate
from a bright star. The actively ejecting star is almost obscured by
clouds at visible wavelengths. The jets have equally spaced globs,
like the ones we see in the arms of primordial galaxies. A star just
above the center also has a trail of gas, a wake, as it is evidently
moving out from the turbulent center.
The visible evidence suggests that local gaseous nebulae
were formed by ejection phenomena, rather than accretion. Indeed, in
some parts of the Milky Way, long, strings of stars in single file span
several
degrees of our sky. We also observe a long river of
hydrogen that connects the
Milky Way with the Magellanic companion galaxies. Apparently these
small companions were ejected. There is no way a small galaxy could
pull
out a narrow stream of gas from the core of a larger galaxy. The star
streams observed by Herschel and Hubble seem to radiate
outward. Indeed, they look like beads of dew on a spider's web. This
does not fit the notion that the stars are condensing from
the gas.
Why do scientists insist that stars are
condensing, when the visible history of the universe shows expanding
galaxies, jets and star clusters lined up like beads on a string? Why do scientists
imagine
that the major forces in the universe are invisible matter and
undetectable vacuous forces? By their own admission, their universe is
almost 99% invisible. The scientific system was built on an elementary
assumption. The scientific definitions, ways of
measuring, methods and laws depend on an elementary assumption.
Scientists presuppose that matter has fixed properties, that atoms do
not change with age. Yet no ancient
galaxy
shone with the light frequencies of modern atoms. Indeed we observe at
many ranges, that atomic clocks generally accelerate throughout cosmic
history. Galaxies also grew
from tiny dense objects
to great dusty growth spirals, the stars following each other out in
lanes. This could only happen if the properties of matter continually
emerge. To emerge means to gradually come into view. At many ranges we
observe that the properties of matter are always gradually changing, as
the galaxies grew. Think about it!
If you have not examined the scientific first principle, you can read
an essay on it here.
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This document is under a Creative Commons License by Victor McAllister.
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Last modified on October 15, 2009